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102 356
|
Speech Processing, Transmission and Quality Aspects (STQ); Application and enhancements of the E-Model (ETR 250); Overview of available documentation and ongoing work
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102356/01.01.01_60/tr_102356v010101p.pdf
|
The present document provides an overview of the application and enhancements of the E-Model taking place in various standardization bodies; in addition it points to the most recent version of the E-Model.
|
102 353
|
Satellite Earth Stations and Systems (SES); Broadband Satellite Multimedia (BSM); Guidelines for the Satellite Independent Service Access Point (SI-SAP)
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102353/01.02.01_60/tr_102353v010201p.pdf
|
The present document provides a guide to the underlying models and assumptions that have been used to specify the BSM Satellite Independent Service Access Point (SI-SAP) interface.
|
102 348
|
Using CSTA for SIP Phone User Agents (uaCSTA)
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102348/01.01.01_60/tr_102348v010101p.pdf
|
The Session Initiation Protocol (SIP) is a control (signalling) protocol for creating, modifying, and terminating sessions with one or more participants. These sessions include Internet telephone calls, multimedia distribution, and multimedia conferences. CSTA standardizes a very powerful and flexible set of application services to observe and control voice and non-voice media calls as well as control and observe non-call related features. This Ecma Technical Report describes how CSTA can be used to provide a subset of CSTA call control functionality, called 1st party call control, for SIP user agents. The term uaCSTA (for user agent CSTA) refers to transporting ECMA-323 (CSTA XML) messages over a SIP session. uaCSTA leverages SIP mechanisms to provide a highly featured, robust, and extensible set of features to support applications in the Enterprise environment. uaCSTA can be implemented by several different types of SIP user agents: • directly by a SIP user agent on a SIP phone. • uaCSTA can also be implemented by a SIP B2BUA to augment 3PCC functionality. • by a proxy server that is front-ending a PBX.
|
102 347
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Short Range Devices (SRD); Equipment for Detecting Movement; Radio equipment operating around e.g. 5,8 GHz, 10 GHz, 25 GHz, 61 GHz, 77 GHz; System Reference Document for Tank Level Probing Radar (TLPR)
|
TR
|
1.1.2
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102347/01.01.02_60/tr_102347v010102p.pdf
|
The present document provides information on the intended applications, the technical parameters and the radio spectrum requirements for TLPR based on e.g. pulse RF or FMCW, operating specifically in the frequency bands: • 4,5 GHz to 7 GHz; • 8,5 GHz to 11,5 GHz; • 24,05 GHz to 27 GHz; • 57 GHz to 64 GHz; • and 75 GHz to 85 GHz. The present document describes pulse RF and FMCW systems that are used in tank level measurement applications. The scope is limited to radars operated as short range devices (because of their commercial usage and design), in which the TLPR is installed in closed (not open) metallic tanks or reinforced concrete tanks, or similar enclosure structures made of comparable attenuating material, holding a substance, liquid or powder, whose level is a variable. It does not include any radar systems in applications where they would be operated outside closed (not open) metallic tank or reinforced concrete tank, or similar enclosure structure made of comparable attenuating material. The radar applications in the present document are not intended for communications purposes. Their intended usage excludes any intended radiation into free space which sets it apart from any type of communications equipment. Additional information is given in the following annexes: • annex A: Detailed market information; • annex B: Technical information; • annex C: Expected compatibility issues.
|
102 343
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Ultra Low Power Active Medical Implants (ULP-AMI) operating in the 401 MHz to 402 MHz and 405 MHz to 406 MHz bands; System Reference Document
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102343/01.01.01_60/tr_102343v010101p.pdf
|
The present document defines the requirements for radio frequency spectrum usage for ULP-AMI active medical implants and peripherals operating in the 401 MHz to 402 MHz and 405 MHz to 406 MHz frequency bands. It further defines the technical characteristics of these devices and proposes interference mitigation technologies to avoid interference to and from primary users (meteorological aids) and other medical wireless applications, to ensure reliable communication links. It includes necessary information to support the co-operation between ETSI and the Electronic Communications Committee (ECC) of the European Conference of Post and Telecommunications Administrations (CEPT), including: • Detailed market information (annex A); • Technical information (annex B); • Expected compatibility issues (annex C).
|
102 341
|
Access and Terminals (AT); Short Message Service (SMS) for PSTN/ISDN; Control Strings (service codes) for SMS functions and SMS supplementary services
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102341/01.01.01_60/tr_102341v010101p.pdf
|
The present document defines the control strings (service codes) for functions and supplementary services defined in the service description of the Short Message Service (SMS). These SMS control strings can be used between a Short Message Terminal Equipment (SM-TE) and a Short Message Service Centre (SM-SC) to control both the SMS functions and the optional SMS supplementary services. These SMS control strings can be used via ISDN and PSTN accesses as well as for the User Based Solution (UBS) and Network Based Solution (NBS). The present document describes the method to implement SMS control strings only. Other SM-SC based methods may be possible. The present document includes information applicable to service providers (SM-SC) and terminal equipment (SM-TE) manufacturers. The present document describes only the SMS control strings to control the according functions and supplementary services in the SM-SC; any charging principles of those services are outside the scope of the present document. There are no interactions relevant with telephony supplementary services. Furthermore, conformance to the present document is met by conforming to the appropriate information sent and received by the SM-TE and the SM-SC. Therefore no method of testing is provided for the present document.
|
102 336
|
Environmental Engineering (EE); Power and cooling system control and monitoring guidance
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102336/01.01.01_60/tr_102336v010101p.pdf
|
The present document applies to monitoring of power and cooling systems for telecommunication installations and equipment. It describes the control, supervision and alarm interface of the equipment and how it may be connected to a local array or a distant network. The influence of different power supply architectures on the network supervision architecture is taken into account. Telecommunications Management Network (TMN) will be partially described because power and cooling system management can be part of more global existing management network. The knowledge of how to create generic interfaces is outlined. The present document helps to identify the type and minimum set of information required for monitoring and management and the possible network architectures for heterogeneous power and cooling system equipment.
|
102 335-2
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); System reference document for harmonized use of Digital Mobile Radio (DMR); Part 2: Systems operating under individual licences in the existing land mobile service spectrum bands
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10233502/01.01.01_60/tr_10233502v010101p.pdf
|
The present document contains functional requirements for individually licensed Digital Mobile Radio (DMR) operating in the existing licensed land mobile service frequency bands as identified in CEPT ECC/DEC/(02)03 [2] and T/R 25-08 [3]. It also proposes terms to facilitate sharing these bands with existing land mobile services and describes expected market information and compatibility issues. The primary market to be addressed is that served by current land mobile services. This market is considered to fall into three basic tiers of usage. Other standards already exist that provide more sophisticated suites of services and facilities than are proposed to be supported by DMR. In the present document the segments considered are: • Tier 2: For the professional market offering peer-to-peer mode and repeater mode (expected to be licensed); • Tier 3: Trunked or Simulcast operation (expected to be licensed). The tier 1 usage is covered in part 1 of TR 102 335 [9]. It is to note that tier 2 products can also encompass simulcast as well as non-simulcast usage. The present document describes a protocol that has been specifically developed with the intention of being suitable for all identified market tiers. Specifically, in this case for use in the existing land mobile service bands with the intention of causing minimum change to the spectrum planning and regulations. Thus the proposed DMR protocol is intended to be applicable to the current bands, channel raster, range assumptions and all other spectrum parameters without need for change. The protocol also supports significant feature and facility enhancements, which are believed to be necessary to enable the future users to obtain the most benefit from the DMR service. This is detailed further in annex B. It includes necessary information to support the co-operation between ETSI and the Electronic Communications Committee (ECC) of the European Conference of Post and Telecommunications administrations (CEPT), including: • Market information (annex A); • Technical information (annex B); • Expected compatibility issues (annex C).
|
102 335-1
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); System reference document for harmonized use of Digital Mobile Radio (DMR); Part 1: Tier 1 DMR#, expected to be for general authorization with no individual rights operation
|
TR
|
1.1.2
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10233501/01.01.02_60/tr_10233501v010102p.pdf
|
The present document has been developed in order to provide information on the usage of radio frequencies for digital land mobile radio equipment offering peer-to-peer functionality complying with DMR specifications (referenced later in the present document as "DMR#") operating in the 406,1 MHz to 410 MHz or 440 MHz to 450 MHz simplex frequency bands, under general-authorization-with-no-individual-rights operation. It includes necessary information to support the co-operation between ETSI and the Electronic Communications Committee (ECC) of the European Conference of Post and Telecommunications administrations (CEPT), including: • Detailed market information (annex A); • Technical information (annex B); • Expected compatibility issues (annex C).
|
102 334
|
Telecommunications and Internet converged Services and Protocols for Advanced Networking (TISPAN); vCard and vCalendar on fixed network for PSTN/ISDN
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102334/01.01.01_60/tr_102334v010101p.pdf
|
The present document provides some recommendations for implementation of vCard and vCalendar in fixed networks.
|
102 328
|
Fixed Radio Systems; Multipoint equipment; Report on Fixed Wireless Access systems which apply Mesh topology and operate in applicable Fixed Service bands within the 3 GHz to 11 GHz range
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102328/01.01.01_60/tr_102328v010101p.pdf
|
The present document provides information about systems with mesh network topology to evaluate: - special features of mesh-network such as network architecture, system deployment, network evolution, geographical coverage, link distances, role of traffic control, power control, antennas; - transmission capacity, spectrum use, spectral efficiency, RF-channelling, use of adaptive modulation and coding; - co-existence with other access systems using the same frequency band. Focus of this report is on 3,4 GHz band for mesh-systems using omni-directional antennas. For mesh-systems using directional antennas calculations also some calculations for 10,5 GHz band are presented.
|
102 327
|
Broadband Radio Access Networks (BRAN); HIPERACCESS; Application Programming Interface (API) definition for the UDP/IP based testing of HIPERACCESS protocol prototypes
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102327/01.01.01_60/tr_102327v010101p.pdf
|
The present document presents the results of work to develop a generic solution for inexpensively testing any protocol and a specific implementation of this solution for the HIPERACCESS DLC protocol [1]. The generic solution provides an inexpensive means to test any protocol implementation. The implementation is software-based but can be hardware as well. The implementation in software on a PC-based platform is a "virtual" test system. The implementation in hardware with radio transport and frequency capabilities is classic radio-based test equipment.
|
102 324
|
PowerLine Telecommunciations (PLT); Radiated emissions' characteristics and measurement method of state of the art powerline communication networks
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102324/01.01.01_60/tr_102324v010101p.pdf
|
The present document describes the radiated emissions' characteristics, and associated method of measurements, of state of the art powerline communication networks as defined in clause 3. The present document reports the radiated emissions' characteristics of powerline communication networks in the frequency range 1,605 MHz to 30 MHz. The radiated emissions' characteristics presented in the present document cover both access and in-home powerline communication networks.
|
102 317
|
Electronic Signatures and Infrastructures (ESI); Process and tool for maintenance of ETSI deliverables
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102317/01.01.01_60/tr_102317v010101p.pdf
|
The present document describes the maintenance activity as performed by TC ESI, the maintenance report and the tools developed to simplify and speed-up the maintenance tasks. The core of the present document is the description of the various aspects of these tools: how to install and use them, how they work and what can be done in order to improve them. Clause 4 contains the explanation of the maintenance process as performed by TC ESI and describes the maintenance report; clause 5 describes the tools developed by TC ESI in order to simplify the management of the maintenance tasks. Clause 6 describes further development of the maintenance tools that can be pursued. Annex A describes the database structure, annex B contains the source code of the developed macros and the pictures of the forms and annex C includes a sample of Mail Merge template, a sample of the core of the maintenance report base file and two examples of tables generated with the tools described in the present document and to be inserted in the maintenance report. Annex D describes how to re-create the tools having only the present document.
|
102 316
|
Electromagnetic Compatibility and Radio Spectrum Matters (ERM); Ultra Low Power Animal Implantable Devices (ULP-AID) operating in the frequency band 315 kHz to 600 kHz; System Reference Document
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102316/01.01.01_60/tr_102316v010101p.pdf
|
The present document defines the requirements for radio frequency usage for inductive loop Ultra Low Power-Animal Implantable Devices (ULP-AID) to be used by the medical and pharmaceutical industries in medically related studies using animals for determining the efficacy and safety of drug and surgical procedures. These devices are typically simplex short range transmitters and receiver systems operating on various frequencies within the range of 315 kHz to 600 kHz. The present document includes necessary information to support the co-operation between ETSI and the Electronic Communications Committee (ECC) of the European Conference of Post and Telecommunications Administrations (CEPT), including: • detailed market information (see annex A); • technical information (see annex B); • expected compatibility issues (see annex C).
|
102 315
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Short Range Devices (SRD); Ultra Low Power Animal Implant Devices (ULP-AID) operating in the frequency band: 12,5 MHz to 20 MHz; System Reference Document
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102315/01.02.01_60/tr_102315v010201p.pdf
|
The present document applies to the radio sections of inductive loop ULP-AID systems to be used by the medical and pharmaceutical industries in medically related animal studies of the efficacy and safety of drug and surgical procedures. These devices are typically simplex short-range transmitters and receiver systems that will operate in the following band, 12,5 MHz to 20 MHz. This spectrum is required due to European Treaty Series legislation [4] and [5] that stipulates certain requirements for housing animals used for experimental and scientific research. These devices are expected to be license exempt on a non-interference non-protection basis. The present document includes necessary information to support the co-operation between ETSI and the Electronic Communications Committee (ECC) of the European Conference of Post and Telecommunications Administrations (CEPT), including: • Detailed market information (annex A); • Technical information (annex B); • Expected compatibility issues (annex C).
|
102 314-6
|
Fixed network Multimedia Messaging Service (F-MMS); Part 6: Control strings (service codes) for MMS functions and MMS supplementary services
|
TR
|
1.1.2
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10231406/01.01.02_60/tr_10231406v010102p.pdf
|
The present document defines the control strings (service codes) for functions and supplementary services defined in the service description of the Multimedia Messaging Service (MMS). These MMS control strings can be used between a Multimedia Messaging Terminal Equipment (MM-TE) and a Multimedia Messaging Service Centre (MM-SC) to control both the MMS functions and the optional MMS supplementary services. These MMS control strings can be used via ISDN and PSTN accesses. The present document describes the method to implement MMS control strings only. Other MM-SC based methods may be possible. The present document includes information applicable to service providers (MM-SC) and terminal equipment (MM-TE) manufacturers. The present document describes only the MMS control strings to control the according functions and supplementary services in the MM-SC; any charging principles of those services are outside the scope of the present document. There are no interactions relevant with telephony supplementary services. Furthermore, conformance to the present document is met by conforming to the appropriate information sent and received by the MM-TE and the MM-SC. Therefore no method of testing is provided for the present document.
|
102 314-3
|
Fixed network Multimedia Messaging Service (F-MMS); PSTN/ISDN; Part 3: Network architecture and interconnection
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10231403/01.01.01_60/tr_10231403v010101p.pdf
|
The present document gives a guideline about different network architectures and interconnection possibilities to allow interworking between different networks (PSTN, ISDN, PLMN) and/or via different service providers for messaging services (SMS/MMS) in fixed networks. The present document describes the high level architecture for routing possibilities for the provision of non real-time Multimedia Messaging Services in fixed telecommunication networks between different MMSCs. Underlying specific technical solutions and their corresponding protocols are outside the scope of the present document and are described in separate specifications and standards which are based on the philosophy of adopting the existing MMS of mobile networks as far as possible. E.g. determination of the destination address should be based on TS 123 140 [2]. The present document contains a recommendation towards MMS interworking issues. Charging principles are outside the scope of the present document. The present document includes guidelines applicable to network operators and service providers to provide a complete service for messaging services. The present document describes two different interworking principles as well as different scenarios to come to a final solution. The present document does not deal with interfaces and protocols between different entities.
|
102 313
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Frequency-agile Generic Short Range Devices using Listen-Before-Transmit (LBT) Technical Report
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102313/01.01.01_60/tr_102313v010101p.pdf
|
The present document aims at providing an overview of the applicability of the Adaptive Frequency Agile (AFA) and Listen Before Transmit (LBT) techniques for use in Short Range Devices (SRD). LBT can be used separately or the two techniques may be used together. The use of LBT and AFA are primarily intended as an enhancement for devices employed in the 863 to 870 MHz band and to improve the efficient use of the allocated radio spectrum. Equipment with LBT is not restricted to a duty cycle limitation. If LBT is not used a duty cycle shall be applied as specified in ERC Recommendation 70-03 [2] Annex 1 according to ECC Report 37 [4]. The principle may be considered for use in other bands designated for Short Range Devices (SRD). The present document supports the recommendations given in ECC Report 37 [4].
|
102 311
|
Fixed Radio Systems; Point-to-point equipment; Specific aspects of the spatial frequency reuse method
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102311/01.02.01_60/tr_102311v010201p.pdf
|
The present document provides, initially, a theoretical overview of how point-to-point systems that use SFRC could improve the link capacity and/or system gain, or could focus power in different directions or cover an area. Focus is put on LOS links. In general these different results may "compete" with one another and for example an increase of capacity may require an increase of system gain. Few basic methods for implementing SFR are provided in the present document. Simulation and field trial results are provided in order to show the discussed techniques and the main improvements for the SFRC over the "Internal" Co-Channel Interference (ICCI). Main report subjects: • Increase the link capacity (by increasing the spectral efficiency). • Increase the link system gain (by increasing the receiver SNR). • Methods of implementing SFR (by using MIMO). • Verification by simulations and trials. • Improvement parameter definition. • Planning matters (installation issues and availability calculation). • Living list for standard modifications.
|
102 309
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Ultra Low Power Active Medical Implants (ULP-AMI); "Membrane Implant" devices operating in the 30 MHz to 37,5 MHz band; System Reference Document
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102309/01.01.01_60/tr_102309v010101p.pdf
|
The present document defines the requirements for radio frequency usage for ULP - AMI membrane medical implants operating in the frequency range from 30 MHz to 37,5 MHz. It defines the radio-communication link between the implanted membrane device, the associated transmitter to activate and power the membrane, and to the associated receiver for registering the blood pressure data. It includes necessary information to support the co-operation between ETSI and the Electronic Communications Committee (ECC) of the European Conference of Post and Telecommunications Administrations (CEPT), including: • Detailed market information (annex A). • Technical information (annex B). • Expected compatibility issues (annex C).
|
102 308
|
User Group; User interoperability criteria
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102308/01.01.01_60/tr_102308v010101p.pdf
|
In the current fast evolving telecommunications world, where various technologies are competing, interoperability is more than ever a fundamental feature that users expect from standardization and every effort is required to ensure it across networks and services. Despite significant standardization efforts, the user experience has shown in several occasions that interoperability is not provided end-to-end as anticipated. It is important to notice that any interoperability failure in public service area might jeopardize people safety and even possibly their life. Therefore it is crucial that interoperability is ensured in this field as widely as possible and that conditions, if any, where the service is not provided, are made clear to everybody. Nevertheless users, considering the growing complexity of telecommunication technology and the legitimate need of freedom for innovation, understand that it is not possible to make everything conforming to a single standard. Taking into account this limitation, they would like to have, when purchasing devices or services, at least a clear indication on how far interoperability is provided. The scope of the present document encompasses the main ICT services, e.g. fixed and mobile telephony basic and supplementary services, directory services, data transmission, Internet access, email, etc. The present document endeavours to give principles enabling for interoperability management in the standardization process according to the users' needs. Such principles are expected to help in identifying areas where users need interoperability and where standardization should allow to provide it. The intention was to include the needs of every kind of users but unfortunately and despite many efforts, inputs about the needs of elderly and disable were very difficult to capture and only a few ones were provided belatedly. Therefore an additional work would be needed to fully take into account such needs.
|
102 305
|
Access and Terminals (AT); IPCablecom Access Network; End to end Provisioning for the IPAT Architecture (Between the eMTA to the V5.2 interface)
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/102305/01.01.01_60/tr_102305v010101p.pdf
|
The present document is: "End to End provisioning of the LCS Architecture" and it refers to the IPCablecom TS 101 909 series of documents. IPCablecom has defined a set of protocols and associated element functional requirements in the TS 101 909 series of documents. These have been developed to deliver Quality of Service (QoS), enhanced secure IP multimedia time critical communication services, using packetized data transmission technology to a consumer's home over a cable television Hybrid Fibre/Coaxial (HFC) data network. To facilitate maintenance and future enhancements to support other real-time multimedia services the TS 101 909 document series consist of multi-parts as detailed in TS 101 909-1 [1]. The present document introduces a high-level management framework for IPCablecom managed objects not covered in the existing NCS architecture. The present document describes at a very high level the key processes involved in an end-to-end Operations Support System/Back office Support System (OSS/BSS) management system for an IPCablecom network using the V5.2 protocol and a Local exchange. It is a "delta" document, in that is covers the changes from the existing NCS architecture, including any extensions to the MTA, the new elements of the IPAT, and changes that may affect other IPCablecom architecture elements. It assumes detailed familiarity with the NCS architecture. It focuses on provisioning, and not the total set of Operation Support System (OSS) capabilities. Note that the focus of the document it to identify those elements for the provisioning of an LCS architecture to provide basic telephony services to a subscriber. Higher level issues such as business management, customer care, and billing are not part of the scope of the present document. Other services (such as data, video) are not part of the scope of the present document. Local Exchange provisioning is not part of the scope of the present document. It is not intended to define Managed Information Blocks (MIBs) for LCS components in the present document. The following notes are considerations that define the background to several provisioning issues: NOTE 1: The present document presents a view of provisioning based on MIB frameworks and definitions as of 2001. Since that time a great deal of work has been done on globalization of MIBS in the IETF, SCTE, ITU and other standard bodies that is not incorporated into ETSI MIB documentation. Future work will be required to redefine the ETSI MIBs to align with global MIB definitions as defined by the IETF. NOTE 2: Although this is a document describing the additions and changes for LCS against a baseline NCS architecture. In many cases the baseline ETSI IPCablecom NCS documents are incomplete on provisioning at the time of the release of the present document. This is particularly true for provisioning of components outside the customer premise. Thus, as with NCS, many LCS provisioning areas remain undefined and their implementation are left up to vendors of IPCablecom equipment. A number of issues arose during the creation of the present document that can not be solved at the time of writing it, and are noted for future work. This includes: • The MIBs as defined in existing ETSI documents (TS 101 909 parts 6 [6], 7 [34], 8 [7] and 9 [8]) are two years out of date from the state in the industry; the MIB defined in the present document are state of the art. When the IETF publishes the RFC, the LCS and NCS MIBs should be revisited and compared against the published RFC. Refer to annex A for the specific RFC draft used as a basis for the present document. • There is a new RFC from the IETF (RFC 3495 [35]). This document defines a Dynamic Host Configuration Protocol (DHCP) option used to configure various devices deployed within cable network architectures. Specifically, the document describes DHCP option to configure one class of a Multimedia Terminal Adapter (MTA). Currently this only addresses the PacketCable version from Cablelabs, and work is required to ensure that there is an IPCablecom version from ETSI as well. • There is no end to end provisioning specification for components in the NCS architecture other than the MTA. • There is no provisioning specification for the S-MTA. • The IPCablecom OSS should evolve to support a generic (perhaps XML like) dynamic object management model. With such an approach, new objects definitions would be downloaded when new features are installed. Eventually, even the SNMP MIBS could also be replaced by a dynamically defined XML. ETSI ETSI TR 102 305 V1.1.1 (2004-03) 7
|
102 302-1
|
Telecommunications and Internet Protocol Harmonization Over Networks (TIPHON) Release 4; Emergency Priority Telecommunications Service (EPTS); Part 1: Requirements analysis
|
TR
|
4.1.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10230201/04.01.01_60/tr_10230201v040101p.pdf
|
The present document describes the requirements for emergency telecommunication capabilities sufficient to enable service providers to offer emergency telecommunication services on TIPHON networks that may safely inter-work with existing PSTN services while enabling more advanced services to be subsequently developed. The scope of the present document is limited to the emergency communications between authorities. The present document forms part of TIPHON Release 4 and defines a set of functional requirements, objectives, and considerations for capabilities to support provisioning of Emergency Priority Telecommunications Services (EPTS) in TIPHON networks.
|
102 300-7
|
Terrestrial Trunked Radio (TETRA); Voice plus Data (V+D): Designers' guide; Part 7: TETRA High-Speed Data (HSD); TETRA Enhanced Data Service (TEDS)
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10230007/01.02.01_60/tr_10230007v010201p.pdf
|
The present document is aimed at a readership with a technical background wishing to have an overall understanding of the TEDS architecture, parameters and features for embarking on any of the following activities before reading the standard: 1) design and development of TETRA 2 network and equipment; 2) system and technical support activity in procurement phases of a TETRA 2 network; 3) upgrading of an existing TETRA network to a TEDS capable network; 4) applications development activity. This list is not exhaustive. Although the emphasis is on a readership with a technical background a selective reading of the contents will also be of benefit to non-technical personnel engaged on other aspects of a TETRA 2 network. No market or user type information nor a competitive analysis with respect to other technologies or standards are included. If any conflict is found between the present document and the clauses in the TETRA standard ETSI EN 300 392-2 [i.2] V3.7.1, or later versions, then the standard takes precedence. In addition to describing TEDS architecture, parameters and features, the present document provides detailed system simulation results and typical link budget calculations to assist readers in their outline radio coverage planning. The effect of using TETRA 2 terminals in high velocity environments such as trainborne, not included in the standard, is also evaluated in the present document.
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102 300-6
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Terrestrial Trunked Radio (TETRA); Voice plus Data (V+D): Designers' guide; Part 6: Air-Ground-Air
|
TR
|
1.1.2
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10230006/01.01.02_60/tr_10230006v010102p.pdf
|
The present document is written as a "Read-me-first" manual or "Getting started with TETRA Air-Ground-Air". It is not intended to be a guide to the TETRA Air-Ground-Air standard nor an authoritative interpretation of the standard. If any conflict is found between the present document and the corresponding sections in the TETRA standard then the standard takes precedence. The reader of the present document is assumed to have a working knowledge TETRA technology. The guidance provided in the present document is prepared with the experience of implementing an Air-Ground-Air to an existing national network. The aims of the present document are: • to introduce and detail the different aspects of Air-to-Ground communication in a TETRA network; • to show the reader that Air-Ground-Air is an integral part of a TETRA network when required; • to provide the reader with sufficient knowledge to engage in qualified discussions with the equipment and service suppliers; • to expose the reader to the specific language and technical terminology used in the present document; • to enable the reader to understand the flexibility in system design, system network topography, system availability, various modes of operation and security features; • to provide basic guidance on optimizing a TETRA network when including an Air-Ground-Air element. The present document provides guidance on the requirements for an Air-Ground-Air service and how best to implement an AGA service.
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102 300-5
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Terrestrial Trunked Radio (TETRA); Voice plus Data (V+D); Designers' guide; Part 5: Guidance on numbering and addressing
|
TR
|
1.4.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10230005/01.04.01_60/tr_10230005v010401p.pdf
|
The present document gives guidance on TETRA numbering. The TETRA technology is a method of mobile communication that meets the needs of a broad range of applications. In order to support these roles it offers an increased range of methods of numbering by comparison with the widely used GSM technology. Whilst GSM is optimized to carry out a limited range of functions both cheaply and efficiently, TETRA offers an alternative for those operations for which the requirements are more complex. The present document offers a summary of: • The most widely used methods of numbering and addressing which are available in TETRA E.218 [i.16]. • The relationship to the numbering systems of the other major mobile and fixed technologies (E.164 [i.4] and E.212 [i.5]). • The manner in which the numbers should be used in private and public applications. • How the numbers are dialled in various applications of the technology. Two stage signalling, as described in ETSI ETS 300 392-4-1 [i.2], annex A and DTMF signalling for any purpose as described in ETSI EN 300 392-2 [i.9], clause 14.5.1.2.5, is outside the scope of the present document. The User Interfaces that may exist to support the user entering the numbers that may exist are outside the scope of the present document.
|
102 300-3
|
Terrestrial Trunked Radio (TETRA); Voice plus Data (V+D); Designers' guide; Part 3: Direct Mode Operation (DMO)
|
TR
|
1.3.3
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10230003/01.03.03_60/tr_10230003v010303p.pdf
|
The present document is written as a "Read-me-first" manual or "Getting started with TETRA DMO". It is not intended to be a guide to the TETRA DMO standard nor an authoritative interpretation of the standard. If any conflict is found between the present document and the corresponding clauses in the TETRA standard then the standard takes precedence. The aims of the present document are: • to provide the reader with sufficient knowledge to engage in qualified discussions with the equipment and service suppliers; • to expose the reader to the specific language and technical terminology used in the standard; • to enable the reader to understand the flexibility in system design, system network topography, system availability, various modes of operation and security features; • in clause 10, sufficiently detailed design information is given to allow link budget calculations to be carried out and outline radio coverage planning to be performed. Some preliminary calculations are also given for co-existence between trunked and direct mode terminals and also for the number of direct mode talk groups (Nets) that can operate simultaneously at the same location. The scope of the present document of the DMO Designers' Guide adds detailed consideration of repeaters and gateways to the detailed consideration of mobile station to mobile station direct mode operation which was covered in the first edition. It should be understood that, as in all standardization activities, there is an inherent conflict between the users' wish to have as broad a standard as possible and at the same time wanting to have as much as possible of that broad standard available and implemented right from the beginning of service. Potential equipment purchasers, network operators and service users should make sure they influence the suppliers to have their required functionality available when they need it. Equipment manufacturers will use the broad flexibility provided within the standard to develop and implement equipment in various ways, and still be conforming to the standard. This broad availability of equipment, each optimized around certain features and functionalities, needs to be carefully analysed by network operators and system users to find the supplier with equipment suited best for their needs.
|
102 300-2
|
Terrestrial Trunked Radio (TETRA); Voice plus Data (V+D); Designers' guide; Part 2: Radio channels, network protocols and service performance
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102300_102399/10230002/01.02.01_60/tr_10230002v010201p.pdf
|
The scope of the present document is to be a useful, but not exhaustive, basis to a network designer for the cell planning and radio resource allocation during the design process. The present document reports the performance of a TErrestrial Trunked RAdio (TETRA) Voice plus Data (V+D) network in some different scenarios. All the presented results have been evaluated through computer simulations by some companies taking part in the TETRA standardization bodies. The network users involved in the development of the TETRA standard provided some realistic and significant network scenarios, giving information about the offered traffic. The characterization of radio channels is the first step for the evaluation of performance of both network protocols and quality of provided services. The present document starts with the description and the illustration of performance of TETRA V+D radio channels, in terms of Bit Error Ratio (BER) and Message Erasure Rate (MER) as function of the Signal-to-Noise Ratio (SNR) and Carrier on co-channel Interference ratio (C/I). The present document also deals with the performance of network protocols (in terms of delay and throughput) and of provided services (BER for circuit switched services and delay plus throughput for packet switched services). A consequence of the analysis of access protocols is the evaluation of traffic capacity of control and traffic channels.
|
102 287
|
Satellite Earth Stations and Systems (SES); Broadband Satellite Multimedia (BSM); IP Interworking over satellite; Security aspects
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102287/01.01.01_60/tr_102287v010101p.pdf
|
The present document reviews the threats and applicable security services that are relevant to BSM systems and leads to recommendations for new technical specifications in this area. The present document only considers geostationary satellites and fixed terminals.
|
102 282
|
Standardization Work Programme in support of digital interactive television and the effective implementation of article 18 of Directive 2002/21/EC
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102282/01.01.01_60/tr_102282v010101p.pdf
|
The present document encompasses the recommendation for a standardization Work Programme in the field of digital interactive television services. It applies the recommendations in the CENELEC report on Standardization in digital interactive television [3], taking into account developments since that document was written. In doing so it identifies additional standardization work in 4 interrelated areas that were found to be relevant to the interoperability of digital interactive TV services. These areas are: i) functional receiver specifications; ii) Service Information; iii) APIs, execution and presentation engines; and iv) content authoring formats and guidelines. Work items in these areas have been considered in respect of all types of interactive services. The Work Programme defines a set of deliverables, a timeline for the execution of specified work items and the identification of the appropriate industry consortiums and ESOs to carry out the work. In doing so it takes into account relevant ongoing standardization activity as well as the legal requirements of the regulatory framework. Taken together, the items in the Work Programme provide a collection of additional tools that will assist stakeholders in significantly improving the availability of digital interactive television services across new as well as established digital interactive television markets.
|
102 281
|
Railways Telecommunications (RT); Global System for Mobile communications (GSM); Detailed requirements for GSM operation on Railways
|
TR
|
2.0.0
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102281/02.00.00_60/tr_102281v020000p.pdf
|
The present document collects all the 3GPPTM Change Requests (CRs) required for operation of GSM for Railways. It complements ETSI EN 301 515 [1].
|
102 281
|
Railways Telecommunications (RT); Global System for Mobile communications (GSM); Detailed requirements for GSM operation on Railways
|
TR
|
1.0.0
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102281/01.00.00_60/tr_102281v010000p.pdf
|
The present document collects all the 3GPPTM Change Requests (CRs) required for operation of GSM for Railways. It complements ETSI EN 301 515 [1].
|
102 279
|
Human Factors (HF); Two surveys on assistive technology
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102279/01.01.01_60/tr_102279v010101p.pdf
|
The present document records the details of two surveys made in connection with work TR 102 068 [1] on requirements for assistive technology devices in Information and Telecommunications Technology (ICT) systems. No attempt is made to analyse the results which are given here solely for information and to provide possible input for other work.
|
102 278
|
Satellite Earth Stations and Systems (SES); Satellite Component of UMTS/IMT-2000; Considerations on possible harmonization between A, C and G family Satellite Radio Interface features
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102278/01.01.01_60/tr_102278v010101p.pdf
|
The present document identifies all differences and commonalities between the A, C and G family satellite radio interfaces (ITU-R Recommendation M.1457 [i.13]) in order to asses harmonization. It also includes a synthetic view of new features proposed by SAT-CDMA and SW-CDMA vs W-CDMA radio interface and what are their expected benefits, with respect to the context (type of constellation and service requirements)
|
102 277
|
Satellite Earth Stations and Systems (SES); Satellite Component of UMTS/IMT-2000; W-CDMA Radio Interface for Multimedia Broadcast/Multicast Service (MBMS)
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102277/01.02.01_60/tr_102277v010201p.pdf
|
The feasibility of using W-CDMA UTRA FDD as a satellite radio interface has been shown in ETSI TR 102 058 [6]. Based on this, ITU has adopted this radio interface as G family in ITU-Rec M 1455 [3] and ITU-Rec M 1457 [4]. This radio interface has been standardized within the TC SES S-UMTS working group as family G in TS 101 851-1 to 4 [7] to [10]. The present document evaluates the feasibility to use S-UMTS interface G (W-CDMA UTRA FDD) for provision of Satellite Multimedia Broadcast/Multicast Service (S-MBMS). The Technical Specifications for the W-CDMA UTRA FDD has been developed in the framework of the third Generation Partnership project (3GPP). The analysis for applicability to satellite is based on 3GPP standards as defined from [11] to [29].
|
102 276
|
User Group; Users' Quality of Service Criteria for Internet Access in Europe
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102276/01.01.01_60/tr_102276v010101p.pdf
|
The scope of the present document is contained within the following features; - The QoS criteria determined are those from the user's point of view. These are "designed" to be reportable by the ISPs to enable users to compare performances and ascertain the suitability of an ISP for their particular communication needs. - The QoS criteria chosen are generic. Thus these do not cater for service specific criteria of the many services supported over the Internet and offered by the ISPs. For example the time taken for delivery of an email is not covered. The QoS criteria identified are considered applicable, in a generic sense, to most, if not all of the service supported by ISPs and accessed by the user. - The QoS criteria identified are applicable for dial up, broadband and wireless access. - The QoS criteria identified are meant to be defined as parameters. This is outside the scope of the present document. It is a study undertaken by another exercise and the outcome is expected to be published in a separate document, EG 202 057-4 (see bibliography). While interpreting each criterion consideration ought to be given for features applicable for each form of access. For example, while considering the criterion "number of attempts to login", this would include the call set up time plus the time taken for login in the case of dial up but only the latter in the case of broadband access. - These QoS criteria arrived at are based on a methodology described in the present document. This includes consultations with users, regulators and ISPs in a number of European countries. However this is only a snap short of the users' requirements considered pertinent among the European Users in 2003. The applicability of these is to be reviewed when significant change/s occur in the criteria and the order of importance. Despite the fact the criteria chosen are those considered "stable" and therefore suitable for recommendation as worthy of reporting on a regular basis by ISPs, it is suggested that these be reviewed in five year's time, in year 2008.
|
102 274
|
Human Factors (HF); Guidelines for real-time person-to-person communication services
|
TR
|
1.1.2
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102274/01.01.02_60/tr_102274v010102p.pdf
|
The present document presents and discusses initial human factors guidelines developed from the EC IST-1999-11577 project Eye-2-Eye [1]. The guidelines are primarily generated from the empirical results of the Eye-2-Eye project that mainly address business use of communication services. Whilst some guidelines are drawn from existing published literature this is not extensive and does not address findings for special user groups (e.g., use of videoconferencing and avatar-telephony by deaf persons). The communication services examined are real-time text, audioconferencing, avatar-telephony, videoconferencing and multimedia conferencing. Service aspects include audio-video synchrony, video resolution, video delay and packet loss for generic networks and specifically IP networks. Data were collected for a range of objective and subjective measures of user behaviour and opinion. The aim is the development of guidelines of use to network operators, service providers and equipment manufacturers. The report provides initial guidelines and recommendations for their further development.
|
102 273-7
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Improvement on Radiated Methods of Measurement (using test site) and evaluation of the corresponding measurement uncertainties; Part 7: Artificial human beings
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/10227307/01.02.01_60/tr_10227307v010201p.pdf
|
The present document provides background to the subject of measurement uncertainty and proposes extensions and improvements relevant to radiated measurements. It also details the methods of radiated measurements (test methods for mobile radio equipment parameters and verification procedures for test sites) and additionally provides the methods for evaluating the associated measurement uncertainties. The present document provides a method to be used together with all the applicable standards and (E)TRs, supports TR 100 027 [11] and can be used with TR 100 028 [10]. The present document covers the test methods for performing radiated measurements on mobile radio equipment using Artificial Human Beings and also provides the methods for evaluation and calculation of the measurement uncertainties for each of the measured parameters.
|
102 273-6
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Improvement on Radiated Methods of Measurement (using test site) and evaluation of the corresponding measurement uncertainties Part 6: Test fixtures
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/10227306/01.02.01_60/tr_10227306v010201p.pdf
|
The present document provides background to the subject of measurement uncertainty and proposes extensions and improvements relevant to radiated measurements. It also details the methods of radiated measurements (test methods for mobile radio equipment parameters and verification procedures for test sites) and additionally provides the methods for evaluating the associated measurement uncertainties. The present document provides a method to be used together with all the applicable standards and (E)TRs, supports TR 100 027 [3] and can be used with TR 100 028 [8]. The present document covers the test methods for performing radiated measurements on mobile radio equipment using a Test Fixture and also provides the methods for evaluation and calculation of the measurement uncertainties for each of the measured parameters.
|
102 273-5
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Improvement on Radiated Methods of Measurement (using test site) and evaluation of the corresponding measurement uncertainties; Part 5: Striplines
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/10227305/01.02.01_60/tr_10227305v010201p.pdf
|
The present document provides background to the subject of measurement uncertainty and proposes extensions and improvements relevant to radiated measurements. It also details the methods of radiated measurements (test methods for mobile radio equipment parameters and verification procedures for test sites) and additionally provides the methods for evaluating the associated measurement uncertainties. The present document provides a method to be used together with all the applicable standards and (E)TRs, supports TR 100 027 [8] and can be used with TR 100 028 [7]. The present document covers the test methods for performing radiated measurements on mobile radio equipment in a Stripline test facility and also provides the methods for evaluation and calculation of the measurement uncertainties for each of the measured parameters.
|
102 273-4
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Improvement on Radiated Methods of Measurement (using test site) and evaluation of the corresponding measurement uncertainties; Part 4: Open area test site
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/10227304/01.02.01_60/tr_10227304v010201p.pdf
|
The present document provides background to the subject of measurement uncertainty and proposes extensions and improvements relevant to radiated measurements. It also details the methods of radiated measurements (test methods for mobile radio equipment parameters and verification procedures for test sites) and additionally provides the methods for evaluating the associated measurement uncertainties. The present document provides a method to be used together with all the applicable standards and (E)TRs, supports TR 100 027 [13] and can be used with TR 100 028 [12]. The present document covers the test methods for performing radiated measurements on mobile radio equipment on an Open Area Test Site and also provides the methods for evaluation and calculation of the measurement uncertainties for each of the measured parameters.
|
102 273-3
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Improvement on Radiated Methods of Measurement (using test site) and evaluation of the corresponding measurement uncertainties; Part 3: Anechoic chamber with a ground plane
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/10227303/01.02.01_60/tr_10227303v010201p.pdf
|
The present document provides background to the subject of measurement uncertainty and proposes extensions and improvements relevant to radiated measurements. It also details the methods of radiated measurements (test methods for mobile radio equipment parameters and verification procedures for test sites) and additionally provides the methods for evaluating the associated measurement uncertainties. The present document provides a method to be used together with all the applicable standards and (E)TRs, supports TR 100 027 [13] and can be used with TR 100 028 [12]. The present document covers the test methods for performing radiated measurements on mobile radio equipment in an Anechoic Chamber with a Ground Plane and also provides the methods for evaluation and calculation of the measurement uncertainties for each of the measured parameters.
|
102 273-2
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Improvement on Radiated Methods of Measurement (using test site) and evaluation of the corresponding measurement uncertainties; Part 2: Anechoic chamber
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/10227302/01.02.01_60/tr_10227302v010201p.pdf
|
The present document provides background to the subject of measurement uncertainty and proposes extensions and improvements relevant to radiated measurements. It also details the methods of radiated measurements (test methods for mobile radio equipment parameters and verification procedures for test sites) and additionally provides the methods for evaluating the associated measurement uncertainties. The present document provides a method to be used together with all the applicable standards and (E)TRs, supports TR 100 027 [13] and can be used with TR 100 028 [12]. The present document covers the test methods for performing radiated measurements on mobile radio equipment in an Anechoic Chamber and also provides the methods for evaluation and calculation of the measurement uncertainties for each of the measured parameters.
|
102 273-1-2
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Improvement on Radiated Methods of Measurement (using test site) and evaluation of the corresponding measurement uncertainties; Part 1: Uncertainties in the measurement of mobile radio equipment characteristics; Sub-part 2: Examples and annexes
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/1022730102/01.02.01_60/tr_1022730102v010201p.pdf
|
The present document provides background to the subject of measurement uncertainty and proposes extensions and improvements relevant to radiated measurements. It also details the methods of radiated measurements (test methods for mobile radio equipment parameters and verification procedures for test sites) and additionally provides the methods for evaluating the associated measurement uncertainties. The present document provides a method to be used together with all the applicable standards and (E)TRs, supports TR 100 027 [4] and can be used with TR 100 028 [5]. The present document acts as a complement to part 1 subpart 1, including examples and annexes.
|
102 273-1-1
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Improvement on Radiated Methods of Measurement (using test site) and evaluation of the corresponding measurement uncertainties Part 1: Uncertainties in the measurement of mobile radio equipment characteristics; Sub-part 1: Introduction
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/1022730101/01.02.01_60/tr_1022730101v010201p.pdf
|
The present document provides background to the subject of measurement uncertainty and proposes extensions and improvements relevant to radiated measurements. It also details the methods of radiated measurements (test methods for mobile radio equipment parameters and verification procedures for test sites) and additionally provides the methods for evaluating the associated measurement uncertainties. The present document provides a method to be used together with all the applicable standards and (E)TRs, supports TR 100 027 [10] and can be used with TR 100 028 [11]. The present document includes a general presentation on the subject of measurement uncertainty.
|
102 271
|
Broadband Radio Access Networks (BRAN); HIPERACCESS; Recommendations on essential radio parameters to be included in EN 302 326 (Harmonized Standard for Multipoint Systems)
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102271/01.01.01_60/tr_102271v010101p.pdf
|
The present document applies to high-performance access systems like HIPERACCESS Access Point (AP) and Access Termination (AT) equipment dealing with essential radio parameters to avoid harmful interference and to provide efficient usage of the spectrum. The radio parameters addressed in the present document were also selected with regards to the essential requirements of Directive 1999/5/EC [1] (R&TTE Directive) article 3.2 (as detailed in Harmonized EN 301 753 [30] and EN 301 997-2 [29]). The present document is mainly intended to be used as informative input to ETSI TM4 for their work on the generic harmonized EN on digital multipoint radio equipment (EN 302 326 [36]), where it is not the intention of the present document to push for any specific form of the inclusion into EN 302 326 [36]. HIPERACCESS is confined to only the radio subsystem consisting of the PHYsical (PHY) layer [4] and the DLC layer [5] - which are both core network independent - and several core network specific convergence sub-layers. HIPERACCESS specifies a fixed broadband wireless access system with a point-to-multipoint architecture aiming at interoperability between equipment from different vendors. An informative overview of HA is given in annex B. Table 1: HA frequency bands Frequency band Lower sub-band (GHz) Upper sub-band (GHz) CEPT/ERC/REC Ref. 40,500 to 41,500 41,500 to 42,500 01-04 [12] "42 GHz" 40,500 to 42,000 42,000 to 43,500 01-04 [12] "32 GHz" 31,800 to 32,600 32,600 to 33,400 01-02 [13] "31 GHz" 31,000 to 31,150 31,150 to 31,300 02-02 [35] 27,8285 to 28,0525 28,8365 to 29,0605 [14]; [15]; [16]; [34] "28 GHz" 28,0525 to 28,4445 29,0605 to 29,4525 13-04; 13-02; 01-03 and CEPT/ERC/DEC(00)09 [14]; [15]; [16]; [34] "26 GHz" 24,500 to 25,500 25,500 to 26,500 13-04; 13-02; 00-05 [14]; [15]; [17] Examples of potential carrier frequencies, provided by CEPT/ECC for FWA are given in table 1. However, the HA standard supports all carrier frequencies from 11 GHz to 43,5 GHz. Therefore, provided that in that range there might be a number of National frequency arrangements and possible future new CEPT allocation and reassignment of bands, the present document is considered applicable also in such cases. The scope of the present document is as follows: • It applies to HIPERACCESS products with integral antennas for which all the technical requirements specified in [4], [5] and [33] included in the present document apply. It also applies to HIPERACCESS equipment without integral antennas to which only the relevant technical requirements apply. • It gives a description of the recommended requirements for the essential radio test suites. It covers basic RF aspects, including the radio frequency channel plans and those other parameters necessary to avoid harmful interference.
|
102 270
|
PowerLine Telecommunication (PLT); Basic Low Voltage Distribution Network (LVDN) measurement data
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102270/01.01.01_60/tr_102270v010101p.pdf
|
The present document presents all the information that is common to the TR 102 269 [5], TR 102 258 [6] and TR 102 259 [7]. Auxiliary parameters, such as asymmetric impedance, return loss (symmetric) and Transverse Conversion Transfer Loss (TCTL) were measured at the same time and the results are also presented in the present document.
|
102 269
|
PowerLine Telecommunications (PLT); Hidden Node review and statistical analysis
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102269/01.01.01_60/tr_102269v010101p.pdf
|
The present document shows results from Transverse Transfer Loss (TTL) measurements performed in Germany, The Netherlands and Spain. It investigates the distribution of the TTL-values in respect to the carrier-frequency, to the relative location of the sockets, to the phase conditions between the sockets and to the national LVDN-particularities (wiring technology, earthing etc). These data are basic for the development of realistic hidden node models required for the development and/or the test of MAC-protocols as well as for the assessment of the performance in presence of hidden nodes.
|
102 263
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Road Transport and Traffic Telematics (RTTT); Radio equipment to be used in the 77 GHz to 81 GHz band; System Reference Document for automotive collision warning Short Range Radar
|
TR
|
1.1.2
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102263/01.01.02_60/tr_102263v010102p.pdf
|
The present document applies to Short Range Devices (SRD) in the field of Short Range Radars (SRR) operating at a frequency band in the 79 GHz range (within 77 GHz to 81 GHz) for exterior automotive applications for vehicle environmental sensing. It covers integrated transceivers and separate transmit/receive modules: • transmitters operating in range from 77 GHz to 81 GHz with peak power levels ranging up to 55 dBm; • receivers operating in the range from 77 GHz to 81 GHz. The present document applies to low power motion and distance monitoring radars for automotive applications, operating on radio frequencies in the 77 GHz to 81 GHz band, with mean power densities of up to 23,5 dBm. The remaining elements of the present document concentrate on the technical matters that are required to assist ECC/CEPT working groups FM and SE.
|
102 260
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Code Division Multiple Access Public Access Mobile Radio (CDMA-PAMR); System reference document
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102260/01.01.01_60/tr_102260v010101p.pdf
|
This System Reference Document has been produced following a request from CEPT working group FM to ETSI and under the MoU between ETSI and CEPT. The objective of the present document is to consider services, business and technical aspects of a CDMA system for PAMR operation in the following bands: • 410 MHz to 420 MHz/420 MHz to 430 MHz; • 450 MHz to 460 MHz/460 MHz to 470 MHz; • 870 MHz to 876 MHz/915 MHz to 921 MHz. This PAMR system is based on CDMA-1X technology, which employs direct sequence spread spectrum code division multiple access technology and a bandwidth of 1 MHz to 25 MHz, with added proprietary functions to support PAMR functions. For convenience, this technology is described in the present document as CDMA-PAMR; however, it should be noted that this does not exclude the possibility of other PAMR systems based on CDMA being proposed in the future. The SRDoc analyses possible consequences of using CDMA-1X technology for PAMR operation, taking into account the number of potential operators in order to ensure competition and current PAMR services offered already in the relevant bands. The following information is included in the annexes to the present document: Annex A: Detailed market information; Annex B: Technical information; Annex C: Expected compatibility issues.
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102 259
|
PowerLine Telecommunications (PLT); EMI review and statistical analysis
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102259/01.01.01_60/tr_102259v010101p.pdf
|
The present document presents the results from EMI measurements performed in Germany, the Netherlands and Spain. It investigates the distribution of the EMI values in respect to the frequency and to the national LVDN-particularities (wiring technology, earthing, etc.).
|
102 258
|
PowerLine Telecommunications (PLT); LCL review and statistical analysis
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102258/01.01.01_60/tr_102258v010101p.pdf
|
The present document presents the results from LCL measurements performed in Germany, The Netherlands and Spain. It investigates the distribution of the LCL values in respect to the frequency and to the national LVDN-particularities (wiring technology, earthing etc.).
|
102 252
|
Digital Video Broadcasting (DVB); Guidelines for implementation and use of the control channel for SMATV/MATV distribution systems
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102252/01.01.01_60/tr_102252v010101p.pdf
|
The present document provides the first guidance to manufacturers, network operators and service providers on equipment design for the use of the Control Channel for SMATV/MATV systems, whose baseline specification is given in TS 101 964 [1]. The Control Channel for SMATV/MATV distribution systems is intended to provide remote control of the head-end device from the user's terminal through a set of commands in a closed in-building environment for the delivery of broadcast services. Furthermore, the Control Channel allows each single user of the building to autonomously decide on the possibility of receiving digital broadcasting services through the community installation, without the need of authorisation from the other users. So the user connected via the in-building cable network can access the broadcast services, satellite and terrestrial, as in the case of "individual reception". The Control Channel protocol is based on DiSEqC [2] to maintain compatibility with existing products and has the further advantage of being sufficiently flexible to allow for future extensions, if and when needed. The structure of the Control Channel message ensures a robust transmission mechanism. SMATV/MATV distribution systems, as described in EN 300 473 [3], represent a solution widely adopted for in- building delivery of DVB signals (both satellite and terrestrial) through collective installations. The adoption of the Control Channel specification, which has been defined in accordance with the commercial requirements given in DVB-TM 2342 (see bibliography), offers an alternative cost-effective solution to the current implementation of SMATV/MATV systems, especially for the case of small and medium size installations, allowing the delivery of DVB TSs/multiplexes without the constraints of the limited bandwidth available in the installation. The technical specification of the Control Channel system (see TS 101 964 [1]) describes the message structure and the set of commands and coding used for remote controlling the Head-end of the SMATV/MATV distribution system. The specification covers both the approaches adopted for the delivery of satellite signals as identified in EN 300 473 [3], i.e. transmodulation from QPSK to QAM (System A) and direct distribution in QPSK after frequency conversion (System B), as well as the remote control of other head-end devices for broadcast services. The specification also takes into account the requirements from EN 301 790 [4] in order to achieve the best commonality and ensure the minimum functionality required for operating via the SMATV systems the satellite interactive terminals. Although primarily focused on SMATV systems for delivery of satellite DVB services, the Control Channel shall also be applicable to MATV systems currently used for terrestrial broadcasting services via VHF/UHF and microwave. The Physical layers of the Control Channel system, described in clauses A.1 and A.2 of TS 101 964 [1], allow for a general use of the Control Channel in the whole range of SMATV/MATV distribution systems, having different topologies and characteristics. The transmission protocol providing the communication link between the user's terminal and the head-end device makes use of the same commands and coding for both physical layers. Furthermore, since the Control Channel capacity is shared among all the user terminals, a "multiaccess" approach is adopted in order to guarantee adequate access time to the selected service. The solution presented in clause A.1 of TS 101 964 [1], which is based on the use of a 22 kHz bus, is suitable for the case of small SMATV/MATV installations using d.c. coupled elements. The solution presented in clause A.2 of TS 101 964 [1], which is based on the use of an RF bus in a frequency range above 10 MHz, provides the capability to pass through community installations using inductive components. So, this second solution potentially allows for a transparent introduction of the Control Channel in most existing SMATV/MATV systems. The present document gives details on the technical parameters and guidelines for system implementation, and provides an evaluation of the performance of the multiaccess schemes adopted for the 22 kHz bus and the RF Control Channel bus, as well as a better knowledge of the features and possibilities offered by the Control Channel protocol . FLEXIMATV Project IST-2000-28695 has been devoted to develop technological solutions based on the DVB control channel specification, aiming at consolidating that European standard, introducing any necessary enhancements and producing clear guidelines on the best practices for implementing DVB control channel systems. These contributions have been included in the present document. Consequently, FLEXIMATV has been aimed at the consolidation of a mature standard supported and endorsed by the analysis and studies, development of industrial solutions, confirmation of suitable performances through appropriate tests in laboratory and in real installations. ETSI ETSI TR 102 252 V1.1.1 (2003-10) 7
|
102 251
|
Speech Processing, Transmission and Quality Aspects (STQ); Anonymous Test Report from 2nd Speech Quality Test Event 2002
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102251/01.01.01_60/tr_102251v010101p.pdf
|
The present document contains the anonymous Test Report from the 2nd Speech Quality Test Event 2002.
|
102 243-1
|
Fixed Radio Systems; Representative values for transmitter power and antenna gain to support inter- and intra-compatibility and sharing analysis; Part 1: Digital point-to-point systems
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/10224301/01.02.01_60/tr_10224301v010201p.pdf
|
The present document summarizes, in relation to the various frequency bands and sub-system types given in the multipart EN 302 217 [i.2] to [.i.7], information in relation to current practical bounds coming from technology and deployment practice about: • Typical-maximum TX power (see note). • Typical-maximum antenna size and gain. • Exceptional antenna size and gain. NOTE: This should not be intended as the power delivered by equipment currently on the market; it indicates the level that is reasonably achievable by FS technology in each band and might be rendered available standing suitable market opportunities justifying the cost/benefit trade off. Antenna gain is also related to its expected typical antenna size, which nowadays, for its ambient impact, is another important factor limiting, in practice, most of FS deployments. The above values are here reported here due to a lack of any ECC harmonized regulations. In the event that such ECC regulations would come into force, it would supersede any less restrictive information given in the present document. In the band 57 GHz to 64 GHz CEPT promotes an uncoordinated or simplified use of the band as outlined in ECC Recommendation (09)01 [i.9]. Also in the band 64 GHz to 66 GHz ECC Recommendation (05)02 [i.10] provides for simplified channel arrangement suitable for simplified regulatory approach (e.g. light licensing/notification). In the bands 71 GHz to 76 GHz and 81 GHz to 86 GHz ECC Recommendation (05)07 [i.11] provides flexible arrangements suitable for both simplified regulatory approach (e.g. light licensing/notification) or conventional coordination; CEPT administrations would freely select the approach best fitting their policy for the bands.
|
102 242
|
Smart Cards; Terminal - card interface; Considerations on robustness improvements
|
TR
|
3.0.0
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102242/03.00.00_60/tr_102242v030000p.pdf
|
The present document describes: • the failure mechanisms that could potentially generate major operating issues between the terminal and the card; • the countermeasures that should be applied within the current specifications; • the enhancements that may further increase the interface robustness.
|
102 235
|
Methods for Testing and Specification (MTS); Internet Protocol Testing (IPT); Pre-normative Study for IPv6 Testing
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102235/01.01.01_60/tr_102235v010101p.pdf
|
The present document defines the scope of an IPv6 test specification programme that supports the "IPv6 Ready" certification programme, the European Commission's IPv6 deployment goals and priorities, and ETSI's own needs for IPv6 testing. Analyses, justifications, and supporting documentation are included. The testing programme is closely associated with the eEurope 2005 action plan. This plan asks the European standardization organizations to propose a 3-year work plan (for 2003, 2004, and 2005) to support new priorities, some of which concern IPv6 testing. Thus, the testing programme is composed of short and medium-term plans (from 2003 through 2005) using resources from eEurope 2005 and ETSI members' voluntary and funded contributions. The present document also contains proposals to request 2003 funding via the eEurope 2005 action plan.
|
102 216
|
Smart Cards; Vocabulary for Secure Element Technologies specifications
|
TR
|
5.1.0
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102216/05.01.00_60/tr_102216v050100p.pdf
|
The purpose of the present document is to identify specialist technical terms used within the Secure Element Technologies (SET) project for the purposes of writing technical documents. The motivations for this are: • to ensure that editors use terminology that is consistent across specifications; • to provide a reader with convenient reference for technical terms that are used across multiple documents; • to prevent inconsistent use of terminology across documents. The present document is a collection of terms, definitions, abbreviations and acronyms related to the baseline documents defining SET objectives and systems framework. The present document provides a tool for further work on SET technical documentation and facilitates their understanding. The terms, definitions and abbreviations as given in the present document are either imported from existing documentation (SET, 3GPP, ETSI, ISO/IEC or elsewhere) or newly created by smart card experts whenever the need for precise vocabulary was identified. The following types of terms and acronyms are not included in the present document: • terms and acronyms generally used in computer science, information technology and cryptography; • terms and acronyms from specific application domains such as mobile telephony and banking; • terms and acronyms defined and used solely within a specific SET specification to facilitate readability. But such terms and acronyms may be included if they are frequently used in the SET specifications and a common, precise definition of the term or acronym would aid the interpretation and implementation of the specifications.
|
102 216
|
Smart Cards; Vocabulary for Smart Card Platform specifications
|
TR
|
4.0.0
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102216/04.00.00_60/tr_102216v040000p.pdf
|
The purpose of the present document is to identify specialist technical terms used within the Secure Element Technologies (SET) project for the purposes of writing technical documents. The motivations for this are: • to ensure that editors use terminology that is consistent across specifications; • to provide a reader with convenient reference for technical terms that are used across multiple documents; • to prevent inconsistent use of terminology across documents. The present document is a collection of terms, definitions, abbreviations and acronyms related to the baseline documents defining SET objectives and systems framework. The present document provides a tool for further work on SET technical documentation and facilitates their understanding. The terms, definitions and abbreviations as given in the present document are either imported from existing documentation (SET, 3GPP, ETSI, ISO/IEC or elsewhere) or newly created by smart card experts whenever the need for precise vocabulary was identified. The following types of terms and acronyms are not included in the present document: • terms and acronyms generally used in computer science, information technology and cryptography; • terms and acronyms from specific application domains such as mobile telephony and banking; • terms and acronyms defined and used solely within a specific SET specification to facilitate readability. But such terms and acronyms may be included if they are frequently used in the SET specifications and a common, precise definition of the term or acronym would aid the interpretation and implementation of the specifications.
|
102 216
|
Smart cards; Vocabulary for Smart Card Platform specifications
|
TR
|
3.0.0
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102216/03.00.00_60/tr_102216v030000p.pdf
|
The purpose of the present document is to identify specialist technical terms used within the Secure Element Technologies (SET) project for the purposes of writing technical documents. The motivations for this are: • to ensure that editors use terminology that is consistent across specifications; • to provide a reader with convenient reference for technical terms that are used across multiple documents; • to prevent inconsistent use of terminology across documents. The present document is a collection of terms, definitions, abbreviations and acronyms related to the baseline documents defining SET objectives and systems framework. The present document provides a tool for further work on SET technical documentation and facilitates their understanding. The terms, definitions and abbreviations as given in the present document are either imported from existing documentation (SET, 3GPP, ETSI, ISO/IEC or elsewhere) or newly created by smart card experts whenever the need for precise vocabulary was identified. The following types of terms and acronyms are not included in the present document: • terms and acronyms generally used in computer science, information technology and cryptography; • terms and acronyms from specific application domains such as mobile telephony and banking; • terms and acronyms defined and used solely within a specific SET specification to facilitate readability. But such terms and acronyms may be included if they are frequently used in the SET specifications and a common, precise definition of the term or acronym would aid the interpretation and implementation of the specifications.
|
102 215
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Recommended approach, and possible limits for measurement uncertainty for the measurement of radiated electromagnetic fields above 1 GHz
|
TR
|
1.3.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102215/01.03.01_60/tr_102215v010301p.pdf
|
The present document presents an evaluation of maximum acceptable measurement uncertainty for Radio Frequency (RF) electromagnetic field (emf) measurements above the frequency one gigahertz (1 GHz) for inclusion within ETSI harmonized standards and radio product standards used for compliance testing. The recommended maximum acceptable measurement uncertainty is given for the following measurement parameters: • radiated RF power; • radiated spurious emissions; and • EMC radiated emissions. The maximum frequency recommendations are based upon current capabilities of measurement equipment at May 2003 and the ability to calculate measurement uncertainty from traceable calibration certificates. Frequencies above the recommended maximum frequency for each method of measurement are for further study. A recommendation is given on how to apply the laboratory calculated measurement uncertainty to a measured parameter and to assess the quality of the measurement against a defined limit given in a standard. The present document contains the results of many discussions held with test equipment manufacturers, test laboratories, administrations, trade associations, societies, and members of the GRSC, all who have an interest in measurement uncertainty above 1 GHz. In determining the maximum acceptable measurement uncertainty, particular account has been taken of current methods of measurement already identified in ETSI standards. However where there is an inconsistency, or uncertainties that have not previously been taken into account in the uncertainty budgets, these are clearly identified in the relevant clauses. Whilst an analysis has been carried out on safety related measurements by ETSI, the responsibility for standards rests with CENELEC. The present document will include any recommendations from CENELEC TC 106X related to radiated measurements in a future edition. Fixed link microwave methods of measurement do not use radiated measurements only conducted measurements (excepting EMC testing). Therefore they are considered outside the scope of the present document. However, as new technologies with integral antennas are being developed, this may be reviewed in a future edition. Satellite equipment is outside the scope of the present document, however, this may be reviewed in a future edition. The measurement uncertainty for conducted measurements is outside the scope of the present document. The use of a test jig for radiated RF measurements of integral antenna radio equipment is outside the scope of the present document. Annex A contains historical examples of the application of shared risk within ETSI standards. Annex B contains examples of measurement uncertainty calculations, some of which are still under development. Annex C is reserved for data files to be used in the calculation of radio parameter measurement uncertainties. Annex D contains a list of all relevant contributions to radiated measurement uncertainty extracted from TR 102 273-1-2 [4]. ETSI ETSI TR 102 215 V1.3.1 (2004-11) 8
|
102 214
|
Services and Protocols for Advanced Networks (SPAN); Result of the PNOs and Equipment Manufacturers questionnaires for identification of Equipment Unit
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102214/01.01.01_60/tr_102214v010101p.pdf
|
The present document is the result of a survey which was conducted in the fourth quarter of 2002 to evaluate and list the information needed by the PNOs and Manufacturers regarding Equipment Identification.
|
102 206
|
Mobile Commerce (M-COMM); Mobile Signature Service; Security Framework
|
TR
|
1.1.3
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102206/01.01.03_60/tr_102206v010103p.pdf
|
The Mobile Signature Service is a service provided by a Mobile Signature Service Provider (MSSP) to a Signer and an Application Provider (AP). Because a Mobile Signature is a "universal method for using a mobile device to confirm the intention of a citizen to proceed with a transaction" (see TR 102 203 [18]), the Mobile Signature Service becomes a crucial security element within the architecture of the Application Provider itself. In the case of transactions (e.g. financial) that rely on a Mobile Signature, the issue of liability may be raised. Both parties, i.e. the enduser and the Application Provider are willing to protect themselves from fraudulent behaviours between each other, or even from hackers, thanks to the Mobile Signature. Without a wide and common understanding of the security considerations for Mobile Signatures by all parties (e.g. the Signer, the Application Provider etc.), it will be quite difficult for MSSPs to build commercial agreements with those parties. In this respect, it is essential for all the stakeholders to identify the level of security, a MSSP may, should, or must provide. This is the purpose of the present document. The concept of Mobile Signatures has also to be linked with the current work of EESSI on electronic signatures taking into account the specificities of the mobile environment. TR 102 203 [18] explain that a Mobile Signature is an electronic signature that goes mobile. The present document clarifies the meaning of this sentence in the context of the security requirements of the European Directive.
|
102 205
|
Methods for Testing and Specification (MTS); UML 2.0 action syntax feasibility study
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102205/01.01.01_60/tr_102205v010101p.pdf
|
The present document is a study on the feasibility of defining an action syntax for UML 2.0 for possible use in standardization. In addition, the need for an action semantics is discussed as well as what needs to be done in order to define a UML profile.
|
102 203
|
Mobile Commerce (M-COMM); Mobile Signatures; Business and Functional Requirements
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102203/01.01.01_60/tr_102203v010101p.pdf
|
The present document ("TR") considers the business and functional requirements for a MOBILE SIGNATURE SERVICE. The present document is intended to guide the drafting of the following ETSI Technical Specifications (TS) concerning interfaces, security provisions and interoperability of mobile signatures service solutions. • Technical Specification: TS 102 204 - Mobile Signature Web Service Interfaces • Technical Specification: TS 102 206 - Security Requirements for Mobile Signature Systems • Technical Specification: TS 102 207 - Roaming of Mobile Signature Service Transactions Together, the present document and the TSs will allow the design and implementation of interoperable mobile signature service solutions. As such, the present document defines business and functional requirements for mobile signature service solutions that leverage smartcards (including the GSM SIM-CARD) and cryptographic techniques (including asymmetric cryptography used in public key infrastructure - PKI) to facilitate the deployment of electronic signature solutions. The mobile signature service is considered suitable for the administration and management of all aspects relating to: • Advising and guiding citizens about the use of mobile signature. • Acquiring mobile signature capability. • Managing citizen identity (including Data protection and individual privacy). • Processing of signature requests from application providers (and providing responses). • Maintaining signature transaction records for the citizen. • Managing all aspects of signature lifecycle (e.g. validity, expiry, revocation). • Supporting service administration and maintenance activities. In defining the Webservice, the present document makes reference to interactions between different parties and to the end user experience of a mobile signature service at the mobile device. This is done to illustrate concepts and facilitate definition of business and functional requirements for the Webservice - only. Readers are referred to other sources of information as indicated in the "References" clause regarding definitions and specifications for these topics.
|
102 202
|
Human Factors (HF); Human Factors of work in call centres
|
TR
|
1.1.2
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102202/01.01.02_60/tr_102202v010102p.pdf
|
The present document reviews the human factors issues of those centres where business is conducted via the telephone whilst simultaneously using Display Screen Equipment (DSE) and gives guidance on the design of the tasks and of the working environment. It classifies such call centres to facilitate the identification of specific tasks, functions and supporting equipment. It reports a number of studies into the call centre working environment and consultations with stakeholders. Guidance is given in the context of current legislation and developing technologies. Human factors problems associated with call centre work are highlighted, and where appropriate, examples of best practice are given to illustrate how they may be avoided. The present document is applicable to call centres of various types such as help lines and telemarketing. It does not deal with issues related either to surveillance centres or to sex lines. It does not deal with web based contact centres. Recommendations in the present document are limited to real time voice based services although the implications of changing technology are noted. Although personal health considerations are included in the present document, safety issues are outside its scope.
|
102 200
|
Methods for Testing and Specification (MTS); UMTS Testing Methodology
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102200_102299/102200/01.01.01_60/tr_102200v010101p.pdf
|
The present document describes UMTS Network Integration Testing (NIT) methodology and TSS&TP.
|
102 199
|
Services and Protocols for Advanced Networks (SPAN); Preliminary analysis on Broadband multimedia services
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102199/01.01.01_60/tr_102199v010101p.pdf
|
The present document analyses technical requirements for the support and deployment of Broadband Multimedia Services in Europe. It evaluates the requirements for standardization, identifies existing standards and standardization gaps with respect to the technology for Broadband Multimedia Services.
|
102 153
|
Electronic Signatures and Infrastructures (ESI); Pre-study on certificate profiles
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102153/01.01.01_60/tr_102153v010101p.pdf
|
The study was intended to include: • Investigation on the major sources of incompatibility. • Review of existing certificate configurations in the public domain, i.e. for open user communities. • Review of proposed profiles. • Conclusion whether a normative task is feasible and meaningful. Since the conclusion reached is that a normative task is required, the study also covers the rest of what the ToR required: • Proposed strategy for harmonization with existing standards in the area, notably with the IETF and ETSI QC-profiles. • Proposal for the way of publishing, e.g. annex to existing standard or stand-alone document. • ToR of the task to be carried out, including estimated effort and time. The following two certificate types have been covered: 1) certificates to be used in a qualified signature; 2) authentication certificates. It is to be noted that the purpose of the study was mainly to investigate if there actually are risks of major incompatibilities among existing profiles. In other words, the survey was not intended to take into exam all existing profiles, which would have been too broad an effort for the limited resources available. The goal was instead to collect, if applicable, sufficient evidence of such risks. When it has been achieved, no additional certificate profiles have been taken into exam. For this reason a few certificate profiles have been left out; for example: the Italian Electronic Identity Document (EID) certificate profile and the corresponding experimental French one. This simply means that the purpose had been achieved before their turn to be taken in exam had arrived.
|
102 197
|
Services and Protocols for Advanced Networks (SPAN); Preliminary analysis of EMTEL and Local Emergency Service requirements for IP networks and Next Generation Networks
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102197/01.01.01_60/tr_102197v010101p.pdf
|
The present document gives a preliminary analysis of technical requirements for the support of EMTEL and location services for emergency and priority services within the PSTN/ISDN/IP signalling transport services in Europe, to progress toward the enhancement signalling transport protocol standards documentation.
|
102 193
|
Fixed Radio Systems; Point-to-point and Point-to-multipoint equipments; Aspects regarding P-P and P-MP digital radio equipment with ATM and IP interfaces carrying native ATM or IP over ATM payloads
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102193/01.01.01_60/tr_102193v010101p.pdf
| |
102 187
|
Satellite Earth Stations and Systems (SES); Broadband Satellite Multimedia; Overview of BSM families
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102187/01.01.01_60/tr_102187v010101p.pdf
|
The present document has been produced by ETSI Technical Committee Satellite Earth stations and Systems (TC SES). It provides the definitions of the Family Names of Broadband Satellite Multimedia (BSM).
|
102 185
|
Digital Enhanced Cordless Telecommunications (DECT); Data Services Profile (DSP); Profile overview
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102185/01.02.01_60/tr_102185v010201p.pdf
|
The present document describes the objectives, structure and content of the Digital European Cordless Telecommunications (DECT) Data Services Profiles (DSPs), which define a set of profile standards for systems conforming to the DECT standard. They are a family of profile standards which build upon, and extend, each other, aimed at the general connection of terminals offering non-voice services between themselves or to other communications network, both public and private, via a DECT Fixed Part (FP). The present document also describes possible user scenarios in wireless mobile computing. These scenarios have formed the guidelines of the DECT DSPs.
|
102 183
|
Digital Enhanced Cordless Telecommunications (DECT); Conformance testing on DECT equipment
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102183/01.02.01_60/tr_102183v010201p.pdf
|
The present document attempts to provide an introduction in DECT testing. It gives a general overview on the DECT system, an introduction on testing and DECT testing in particular. It further shows how an ETSI customer can use the DECT test standards. The present document contains an abstract of the DECT standard, the ISO/IEC 9646 [56] to [62] standard and the resulting issues from applying the requirements and techniques of ISO/IEC 9646 on the DECT protocol stack, together with a set of examples derived from the currently available test specification material from the Test suites for different DECT layers. The present document is not an overall description of DECT system concepts for which reference should be made to the relevant DECT standard documents, neither a guidance in testing methodology and framework, for which reference should be made to ISO/IEC 9646 documents. It is outside the scope of the present document to define specific equipment or particular implementation of such a product intended to realize the considered ATSs for DECT testing.
|
102 180
|
Emergency Communications (EMTEL); Basis of requirements for communication of individuals with authorities/organizations in case of distress (Emergency call handling)
|
TR
|
1.5.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102180/01.05.01_60/tr_102180v010501p.pdf
|
The present document gives an overview of the requirements for communication from individuals to authorities and organizations in all types of emergencies. It collects operational and organizational requirements as a basis for a common 112 service, including location information (E112). Although many of the requirements collected from network operators, service providers (e.g. emergency response organizations) and users relate to national public policies and regulation, there are a number of service and technical aspects which are better dealt with on the European level to ensure harmonized access and services over Europe and effectiveness by user increased awareness by using standardized solutions. The essence of an emergency call is to establish a direct and real time means of conversation between the calling party and an officer, in a Public Safety Answering Point, in charge of bringing assistance or organizing response. However, the scope of the present document also encompasses various types of services that can bring an added value to this basic scenario or add new scenarios, such as transmission of data to extend the information made available to the PSAP's agent or to facilitate access of people suffering disabilities or impairments. The present document also collects already established requirements for EMTEL and gives guidance on how to find the standardization work published or ongoing. The present document also identifies the areas needing particular attention from the experts and refers to identified documents in preparation in SDOs (Standard Development Organizations). The present document outlines the basis for technical, operational, organizational or regulatory requirements. The present document is primarily applicable to ETSI technical bodies for the defining of services and specifying technical solutions. Requirements for emergency calls of a private nature (e.g. vehicle/road assistance) and directed to an emergency service provider not being an emergency service provider recognized by a government are not covered by the present document. It is anticipated that the present document will be maintained, by taking in line with developments at regulatory level and more specifically within the CoCom (Communication Committee for the Electronic Communications Directives) at the European Commission (EC) level.
|
102 179
|
Digital Enhanced Cordless Telecommunications (DECT); AT command interface; High-level description
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102179/01.01.01_60/tr_102179v010101p.pdf
|
The present document specifies a profile of AT commands and recommends that this profile be used for controlling PT and FT functions.
|
102 175
|
PowerLine Telecommunications (PLT); Channel characterization and measurement methods
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102175/01.01.01_60/tr_102175v010101p.pdf
|
The present document applies to measurements of the symmetry behaviour and the attenuation in Low Voltage Distribution Networks (LVDN) within premises. It also covers measurements for magnetic near fields within and in close vicinity of premises resulting from feeding HF-signals into LVDN. The measurements are intended for the measurement campaign of the ETSI Specialist Task Force (STF) 222, which investigates HF characteristics of LVDN relevant for the operation of PLT-systems as well as the hidden node aspect.
|
102 171
|
Using ECMA-323 (CSTA XML) in a Voice Browser Environment
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102171/01.01.01_60/tr_102171v010101p.pdf
|
Services for Computer Supported Telecommunications Applications are defined by Standard ECMA-269 and the XML Protocol for those services is defined by Standard ECMA-323. In many cases, applications require only a small subset of the features standardized in CSTA. In a voice browser environment, processing speech (not call control) is usually the major focus of the application. For example, from a CSTA feature perspective, an application may simply need to answer an incoming call and then later clear it. As these speech-centric applications evolve they can use additional, more advanced, features standardized by CSTA that are provided by CSTA-conformant communications platforms. Since ECMA-269 and ECMA-323 are relatively large standards (combined over 1100 pages), it is a challenge for application developers without prior knowledge of the CSTA standards to know where to find basic concepts that they need to understand in order to implement basic CSTA features. The present document illustrates how ECMA-323 can be used in a Voice Browser environment. These concepts illustrated in the present document can be applied to any Voice Browser environment that provides an XML-based read/write messaging interface (i.e. CSTA Service Boundary) that supports asynchronous events from a CSTA conformant communication platform. SALT enabled browsers that implement a ECMA-323 interface for call control using the SALT smex mechanism is an example of a browser with this capability. Throughout the present document the term "ECMA-323 enabled voice browser" is used, in a generic sense, to refer to browser implementation that support a CSTA conformant ECMA-323 interface. Examples are provided that show how ECMA-323 can be used in several different environments such as SALT-enabled browsers and CCXML.
|
102 168
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); VHF air-ground Data Link (VDL) Mode 4 radio equipment; Study report on Galileo local component
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102168/01.01.01_60/tr_102168v010101p.pdf
| |
102 163
|
Broadband Radio Access Networks (BRAN); HIPERLAN Type 2; Profile Implementation Guide
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102163/01.01.01_60/tr_102163v010101p.pdf
|
The present document describes the Profile mechanism of HIPERLAN/2 [1].
|
102 157
|
Satellite Earth Stations and Systems (SES); Broadband Satellite Multimedia; IP Interworking over satellite; Performance, Availability and Quality of Service
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102157/01.01.01_60/tr_102157v010101p.pdf
|
The objectives of BSM IP QoS standardization are: • to define what QoS is in the context of the BSM and how to measure it; • to identify what QoS models are applicable to BSMs; • to identify standardized performance metrics that can guarantee the performance of IP over the BSM; and • to provide BSM services at the right level of QoS thus enabling a better utilization of BSM resources, in particular the scarce resources of the radio spectrum. Hence, the scope of the present document is on the provisioning of Internet QoS over BSM networks. It will investigate how standardized QoS parameters and management mechanisms apply to BSMs and how to ensure that their required performance is met. In addition, the scope of the present document encompasses: • the identification of specific BSM architectures and the and how they provide quality of service; • the definition of Internet service availability in the context of BSM and the establishment of end-to-end performance metrics; • the identification and application of other ETSI technical specifications outside the BSM such as TIPHON and 3GPP; • the identification of relevant standardization work in other standards bodies working groups such as the Internet Engineering Task Force (IETF) working groups on Integrated Services (Intserv), Differentiated Service (Diffserv), Internet Protocol Performance Metrics (IPPM) and Performance Implications of Link Characteristics (PILC), the International Telecommunications Union Study Groups (ITU SG) 2, 4, 12, 13 and 16, the Institute of Electrical and Electronic Engineers (IEEE) and finally, the Digital Video Broadcasting Internet Protocol Infrastructure Group (DVB IPI); • the identification of satellite specific technical requirements for BSM quality of service, including service architecture, the use of standardized Internet protocols and extensions to satellite networking when and if needed; and • the identification of satellite specific technical requirements for BSM performance and availability at the network layer. The present document follows inputs from the following earlier reports in the BSM WG: • TR 101 984 [11], "Broadband Satellite Multimedia: Services and Architectures"; • TR 101 985 [12], "Broadband Satellite Multimedia: IP over Satellite"; • TR 102 155 [13], "Broadband Satellite Multimedia: Addressing and routing"; and • TR 102 156 [14], "Broadband Satellite Multimedia: Multicasting". ETSI ETSI TR 102 157 V1.1.1 (2003-07) 9
|
102 156
|
Satellite Earth Stations and Systems (SES); Broadband Satellite Multimedia; IP interworking over satellite; Multicasting
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102156/01.01.01_60/tr_102156v010101p.pdf
|
The focus of the present document is satellite-based multicasting, including IP multicasting. The scope of the present document is to: • identify relevant multicast issues, use cases service architectures for satellite multicasting; • identify satellite specific issues and technical requirements for satellite multicasting; • identify relevant standardization work in other standards bodies; • and conclude what actions ETSI should be taking with respect to preparing Technical Specifications.
|
102 155
|
Satellite Earth Stations and Systems (SES); Broadband Satellite Multimedia; IP interworking over satellite; Addressing and routing
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102155/01.01.01_60/tr_102155v010101p.pdf
|
The present document focuses on addressing and routing in satellite multimedia systems, and specifically on those defined by the term BSMS (Broadband Satellite Multimedia Systems) in TR 101 984 [3] and TR 101 985 [4]. The scope of the present document is to: • Identify and select use cases and high level architectures applicable to Addressing and Routing of IP packets in broadband multimedia satellite systems. • Identify satellite-specific requirements for IP Addressing and Routing. • Identify relevant standardization work in other standards bodies such as IETF, ITU and DVB. • Recommend topics for standardization.
|
102 198
|
Services and Protocols for Advanced Networks (SPAN); Preliminary analysis of migration to the Internet NGN
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102198/01.01.01_60/tr_102198v010101p.pdf
|
The present document is an analysis of technical requirements for the support and deployment of Telecommunication Services in Europe using IPv6, to progress toward the enhancement of signalling transport protocol standards. The aims are to evaluate the requirements for standardization, existing standards, and to identify standardization gaps with respect to recommendations made by the Communication "Next Generation Internet priorities for action in migrating to the new Internet Protocol Ipv6" [COM(2002) 96 final] (reference [COM 96]).
|
102 151
|
Smart Cards; Measurement of Electromagnetic Emission of SIM Cards (Release 6)
|
TR
|
6.0.0
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102151/06.00.00_60/tr_102151v060000p.pdf
|
The present document describes: • a reference test board and TEM cell for EM measurements of smart cards; • EM measurement procedures for smart card using the reference test board and TEM cell; • Sample EM measurements of already existing smart cards.
|
102 140
|
Services and Protocols for Advanced Networks (SPAN); Status report of transport mechanisms and protocols for the next generation of IP networks
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102140/01.01.01_60/tr_102140v010101p.pdf
|
The present document describes the status of the documents worked on by Special Task Force (STF) 226.
|
102 139
|
Compatibility of POTS terminal equipment with xDSL systems
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102139/01.01.01_60/tr_102139v010101p.pdf
|
The present document reviews technical issues on the mutual compatibility of current and future analogue POTS terminal equipment with xDSL systems operating at frequencies up to 30 MHz. The present document considers both TE intended to support simultaneous operation with xDSL on the same analogue cable pair, and TE co-existing with xDSL systems in the same access cables. The impact of home LANs working on the same cable pair as the POTS and xDSL systems is also considered. Where reference is made to the network termination point e.g. in relation to the installation of splitters or filters, this is applicable at the customer premises end of the local loop only. Issues relating to the network end of the local loop are not considered in the present document.
|
102 137
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Use of radio frequency spectrum by equipment meeting ETSI standards
|
TR
|
1.3.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102137/01.03.01_60/tr_102137v010301p.pdf
|
The present document lists the application(s), frequency band(s), and relation to the Radio Equipment Directive [i.10] of ETSI deliverables when this information has been entered into the ETSI work programme. Note that some ETSI deliverables may be related to radio frequencies but are not included in the present document since the information has not been entered into the ETSI work programme.
|
102 136
|
Access and Terminals (AT); Analysis and scoping of IPCablecom interfaces and interactions for testing
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102136/01.01.01_60/tr_102136v010101p.pdf
|
The present document is the result of a study of the functional technical characteristics of the IPCablecom system based upon the current series of TS 101 909 specifications that cover Network Call-based Signalling (NCS), Internet Signalling Transport Protocol (ISTP), Trunking Gateway Control Protocol (TGCP) and Internet Protocol Access Terminal - Line Control Signalling (IPAT-LCS), it therefore specifically excludes implementation based upon the Distributed Control Signalling (DCS) model and ITU-T Recommendation H.248 [31] options. Generally the present document does not cover: • the Euro-DOCSIS protocol between CM and CMTS (AN); • mechanisms that are used in the IP-cloud including but not limited to the IP-routing and backbone QoS-mechanism (e.g. MPLS, RSVP); • interfaces for connection to the PSTN network as far as these interfaces are covered in other test specifications. IPCablecom.
|
102 135
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); System Reference Document for use of the band 169,4 MHz to 169,8 MHz for Digital Interchange of Information and Signalling (DIIS)
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102135/01.01.01_60/tr_102135v010101p.pdf
|
The present document defines the requirements for radio frequency usage for radios operating under the DIIS protocol operating in the ERMES band. It includes necessary information to support the co-operation between ETSI and the European Radiocommunications Committee (ERC) of the European Conference of Post and Telecommunications Administrations (CEPT), including: • Detailed market information (annex A); • Technical information (annex B); • Expected compatibility issues (annex C).
|
102 134
|
Electromagnetic compatibility and Radio spectrum Matters (ERM); Short Range Device equipment operating below 1 GHz; Systems Reference Document for introduction of systems for Asset Tracking using Frequency Hopping Speed Spectrum (FHSS) in the band 865-868 MHz
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102134/01.01.01_60/tr_102134v010101p.pdf
|
The present document applies to Radio equipment to be operated in the 25 MHz to 1 000 MHz frequency range and using a Frequency Hopping Spread Spectrum modulation technique for Asset Tracking items. The system is expected to operate in the 865 MHz to 868 MHz frequency range, according to the spectrum mask limits in the clause C.4 and subject to SE 24 compatibility studies needed. The duty cycle of a transmission is very low - typically twice a day, 3,6 s transmission (< 0,001 %). Only in exceptional situations, i.e. in cases of emergency or in a specific situation in which a customer requires an additional location, he is polling the end-unit transmitter via existing paging networks, according to a pre-programmed plan. The program name is ASAP (Assets Surveillance And Protection) It is a cost sharing contract of IST ( Information Society Technologies). The Project Reference is:ITS-2000-30071 and the Project Fact Sheet can be viewed at: project facts sheets. Search by Entering search term(s): "ASAP" and on the outcome page click on the blue "ASAP". Nexus Telocation Systems Ltd. submitted an obligation to the European Commission that the air-protocol of the system will be made public. The following information is given in the annexes: • Annex A: Market information & Contribution to community social objectives; • Annex B: Technical information; • Annex C: Expected compatibility issues.
|
102 133
|
Human Factors (HF); Access to ICT by young people: issues and guidelines
|
TR
|
2.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102133/02.01.01_60/tr_102133v020101p.pdf
| |
102 133
|
Human Factors (HF); Access to ICT by young people: issues and guidelines
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102133/01.01.01_60/tr_102133v010101p.pdf
| |
102 129
|
Telecommunications and Internet Protocol Harmonization Over Networks (TIPHON); Requirements Definition Study; Interworking of TIPHON and IPCableCom; Architecture, Protocol, QoS and Security
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102129/01.01.01_60/tr_102129v010101p.pdf
|
The objective of ETSI Project TIPHON is the specification of interoperability mechanisms and related parameters to enable multimedia communications (particularly voice) to take place, to a defined quality of service, between Switched Circuit Networks (SCN) and Internet Protocol (IP) based networks and their associated terminal equipment. The present document presents an overview of the architecture, protocols, QoS and security concepts for the interworking between TIPHON and IPCablecom systems. It introduces a possible framework for convergence between TIPHON and IPCablecom. Annexes A and B give a general overview of IPCablecom and TIPHON. Annex C addresses architectural issues for interworking between TIPHON and IPCablecom systems. Annex D provides information on the protocol aspects relating to TIPHON and IPCablecom system interworking. Annex E examines TIPHON and IPCablecom QoS Policies, architectures and the control of network resources Annex F reviews TIPHON and IPCablecom security policies and describes the results of a threat analysis.
|
102 126
|
Speech Processing, Transmission and Quality Aspects (STQ); Implementation of QoS parameter measurements according to ETSI EG 201 769
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102126/01.01.01_60/tr_102126v010101p.pdf
|
The present document contains additional information and guidance on the harmonized definitions and measurement methods specified in EG 201 769 [1]. The purpose of the present document is: • to highlight aspects of the parameters that have been found to need further clarification; • to provide additional information for use under practical measurement conditions; and • to provide guidance on how to achieve a balanced approach taking into account the ONP principles. The present document takes account of experience in the use of parameters by some operators and regulators. Each of the parameters as defined in EG 201 769 [1] was analysed separately in order to prepare the present document. All additional information and explanations that was found to be useful was then collected in the present document. Information of a more general nature may be found in the annexes and is valid for all or several QoS parameters. The intention of the present document is to provide useful and easy to use guidance for practical implementations of the measurement methods. Clause 4 contains general considerations on the scope, application and publication of QoS parameters according to EG 201 769 [1]. Clause 5 gives additional implementation information for three parameters of EG 201 769 [1]; but for the other parameters no urgent need for guidance on implementation was found to be necessary. However, the general considerations in clause 4 and the annexes are also related to these parameters. The present document does not to invalidate the text of EG 201 769 [1], but provides additional advisory text. Hence the present document should be understood as an informative delta document to EG 201 769 [1] and used in this way.
|
102 125
|
Human Factors (HF); Potential harmonized UI elements for mobile terminals and services
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102125/01.01.01_60/tr_102125v010101p.pdf
|
The present document identifies common, basic tasks and goals of users of mobile telecommunication terminal devices and services. The set of basic, common functions, through which these goals are achieved, are described and analysed in the perspective of possible harmonization of User Interface (UI) elements on the most basic level, without restricting the manufacturer's freedom to specific UI implementations. The present document also examines possibilities and highlights obstacles and limitations of such an approach. The present document addresses the issues above from the end user's perspective, in order to further simplify and enable basic access to mobile ICT devices and services, for all. It shall be regarded as a pre-study of the possibilities and key areas for further work. The present document integrates, from the practical perspective, results and recommendations of available ETSI Human Factors Standards, Guides and Technical reports, produced under the eEurope initiative, for deployment. The present document continues the approach taken by ETSI TC HF, developing an ETSI Standard for generic, spoken commands, ES 202 076 [5], an ETSI Standard for the character repertoires, ordering and assignment to the 12-key keypad, [7], an ETSI Guide on design guidelines for ICT products and services in a Design-for-all perspective, [8], a Technical Report on Access to ICT by young people; Issues and Guidelines, [9], and a Technical Report on requirements for assistive technology devices in ICT,[4]. The present document identifies and recommends key areas for further study and guidance on device- and service, manufacturer-, operator- and service provider-independent implementations, covering most basic user actions and belonging functions. Common, basic interactive elements and the familiarity achieved thereby increase the end user transference of learning between devices and services, without restricting the manufacturer's freedom to specific UI implementations.
|
102 121
|
Environmental Engineering (EE); Guidance for power distribution to telecommunication and datacom equipment
|
TR
|
1.2.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102121/01.02.01_60/tr_102121v010201p.pdf
|
The present document gives guidance on installation, connection and operation of power supply systems for telecommunication / datacom installations and equipments. Also are considered items of equipment with their own power supply, which are connected to form a complete system installation. The present document contains definitions for power supply and distribution systems in complement to power interfaces standards ETSI EN 300 132 series [5], [6], [26].
|
102 105
|
Methods for Testing and Specification (MTS); Methodological approach to the use of object-orientation within the standards making process; Initial study
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102105/01.01.01_60/tr_102105v010101p.pdf
|
The present document provides an assessment of the feasibility of using object-orientation in the development of standards, particularly when used in association with Message Sequence Charts (MSC), Specification and Description Language (SDL) defined in ITU-T Recommendations Z.120 [11], Z.100 [9] and Z.105 [10] and the Tree and Tabular Combined Notation (TTCN) defined in ISO/IEC 9646-3 [7] for specifying the behaviour and testing of services and protocols. A number of textual and graphical notations have been defined for object-oriented design purposes. The Guidelines for the Definition of Managed Objects (GDMO), for example, have been used extensively in the specification of international standards for telecommunication network management services. However, it is the universal nature of graphical languages which makes them particularly interesting for standardization applications. Since its introduction in 1994, the Unified Modelling Language (UML) has become one of the most popular and best defined graphical languages for object-oriented design and, for these reasons, this is the only notation considered here. The purpose of this TR is: - to provide a very brief introduction to the UML and the work of the Object Management Group (OMG) in standardizing it (The Universal Modelling Language [12]); - to identify elements of the UML which could have some value if applied to the ETSI standards-making process; - to evaluate the benefits that may be derived from their use. The UML is considered in relation to all types of standard. On completion of this study, a set of guidelines based on a methodological approach to the use of UML in the standards-making process will be developed. These guidelines will assist technical bodies and rapporteurs to make effective use of UML wherever feasible within the process.
|
102 101
|
Users' needs for Local Area Network (LAN) Interconnection standards
|
TR
|
1.1.1
|
http://www.etsi.org/deliver/etsi_tr/102100_102199/102101/01.01.01_60/tr_102101v010101p.pdf
|
The present document identifies the users' requirements regarding the standardization needs in Local Area Network Interconnection as seen through a survey carried out by the ETSI User Group in 1998.
|
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