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Human Factors (HF); A study of user context dependent multilingual communications for interactive applications

The goal of this work item is to study the issues relevant for the localization of multilingual applications, regarded from all relevant stakeholders' perspectives. Based on the studies performed, this Technical Report will provide conclusions, recommendations and guidance addressing the issues related to the localization of user context dependent multilingual communications for interactive applications. The aim of the work will be on ensuring the accuracy of the texts generated by the applications, therewith simplifying the work of developers, publishers, translators and interaction designers

ETSI TR 101 568 V1.1.1 (2012-02)

Human Factors (HF); An annotated bibliography of documents dealing with Human Factors and disability

A listing of available Human Factors and disability standards with brief comment on their content

ETSI SR 001 996 v6.1.1 (2013-08)

Human Factors (HF); Guidelines for the design of mobile ICT devices and their related applications for people with cognitive disabilities

The preparation of a set of recommendations for the design and development of devices and applications such as mobile phones, smartphones, touchpads, tablet computers and their related applications in order people with learning disabilities (including elderly) to exploit the new services emerging from the rapidly evolving mobile ICT technology

ETSI EG 203 350 V1.1.1

Human Factors (HF); Smart cities and communities standardization for citizens and consumers

The report will assess the different citizen/consumer needs that smart city standardization in the ICT domain has to address (accessibility, usability, personalisation, interoperability, personal data protection, etc)

ETSI TR 103 455 V0.4.1

Human Factors (HF); User-centred terminology for existing and upcoming ICT devices, services and applications Device and service terminology

The EG will update the terminology list of EG 202 132 to include relevant terms for upcoming device and service features and will extend the list to include the 5 most frequently spoken languages in the EU and EFTA (English, French, German, Italian, Spanish). The scope of the EG will be limited to general and generic terms and will not, in any way, prevent manufacturers and service operators to introduce specific and/or proprietary terms for special or unique features that they wish to offer.

ETSI EG 203 499 V1.1.1. (2019-08)

Universal Communications Identifier (UCI); Improving communications for disabled, young and elderly people

The production of a taxonomy of all disability, ageing and youth issues that could be addressed by UCI based systems and relating these to requirements for elements in the UCI additional information field and to PUA functionality. The work will include liaison with groups representing young, elderly and disabled people and with the eEurope Smartcard initiative.

ETSI TR 103 073 V1.1.1 (2003-11)

IEEE 1609.2-2016 - IEEE Standard for Wireless Access in Vehicular Environments - Security Services for Applications and Management Messages

This standard defines secure message formats and processing for use by Wireless Access in Vehicular Environments (WAVE) devices, including methods to secure WAVE management messages and methods to secure application messages. It also describes administrative functions necessary to support the core security functions.

IEEE 1609.2-2016

IEEE P2040 - Standard for General Requirements for Fully Automated Vehicles Driving on Public Roads

This standard specifies the general requirements that a fully automated vehicle shall meet in order to drive on public roads. This standard serves as a comprehensive checklist of all the use cases, scenarios, and worst conditions that a fully automated vehicle certified by the public body shall address on public roads in order to protect the safety of the public including passengers, pedestrians, and other traffic participants.

IEEE P2040

IEEE Std 2030.1.1-2015, IEEE Standard Technical Specifications of a DC Quick Charger for Use with Electric Vehicles

Direct-current (dc) charging is a method of charging that facilitates rapid energy transfer from the electric grid to plug-in vehicles. This method of charging allows significantly more current to be drawn by the vehicle versus lower rated alternating-current (ac) systems. A combination of vehicles that can accept high-current dc charge and the dc supply equipment that provides it has led to the use of terminology such as “fast charging,” “fast charger,” “dc charger,” “quick charger,” etc. DC charging and ac charging vary by the location at which ac current is converted to dc current. For typical dc charging, the current is converted at the off-board charger, which is separate from the vehicle. For ac charging, the current is converted inside the vehicle, by means of an on-board charger. The location of the ac to dc conversion equipment, or converter, shapes the complexity of the equipment design. Regarding ac charging, as previously mentioned, the conversion is on board the vehicle. This allows the original equipment maker (OEM) designed systems to control the charging operation in its entirety. The on-board charger (converter) and battery controller solution is under direct control of the vehicle manufacturer. For dc charging, an entirely new challenge exists for OEMs. The dc charger is now external to the vehicle and requires the vehicle engineers to control an external power device. For the reason of necessary interoperability, standards such as IEEE Std 2030.1.1 are provided to assist developers.

IEEE 2030.1.1-2015

ISO 11519-1:1994, 3.9.Road vehicles - Low-speed serial data communication: Part 1: General and definitions

Specifies general definitions for low-speed serial data communication up to 125 kbit/s for road vehicle applications. The object is to define the general architecture of the communication network and the content of the data link layer and the physical layer for transmission between the different types of electronic modules on board road vehicles. Parts 2, 3 and 4 are entirely independent.

ISO 11519-1:1994