BS EN 15213-3:2013
$167.15
Intelligent transport systems. After-theft systems for the recovery of stolen vehicles – Interface and system requirements in terms of short range communication system
| Published By | Publication Date | Number of Pages |
| BSI | 2013 | 40 |
This European Standard focuses on Short Range (SR) Interface/Systems Requirements. SR systems use an interface that allows Detection Equipment to operate some ATSVR functions in the direct line of sight of vehicles.
SR systems enable LEAs in a particular country, to permit LEA personnel to perform actions on vehicles that are within their immediate vicinity. Such actions can include identification of vehicle data or influencing the vehicle from a remote site.
Standards for Automatic Vehicle Identification (AVI) and Automatic Equipment Identification (AEI) are being developed by CEN/TC 278/WG 12 in parallel with ISO/TC 204/WG 4. This ATSVR specification does not prejudice those standards and does not seek to establish parameters for future AVI/AEI standards. DSRC and AVI Standards are seen as basic technology blocks for types of short range ATSVR.
This part of EN 15213 describes the structure, bit arrangements, number representation and coding of message elements that are typically transmitted as data. There is no requirement to make the messages as short or as effective as possible. Emphasis is placed on making them as clear and unambiguous as possible.
For Short Range Communications, where there is very little time available for the transfer of data between passing vehicles and detection equipment, only a subset of the message elements described in this document can be transmitted. Therefore, in these cases, the data lengths are reduced to an absolute minimum.
Data elements such as times, dates, or geographical coordinates need not be transmitted because the ATSVR consists of various equipment elements that communicate and interact through various interfaces in accordance with standard procedures and protocols facilitating the recovery of stolen vehicles. These processes may involve a human operator.
ATSVR elements include the OBE installed in the vehicles, a range of Detecting Equipment and one or more System Operating Centres. One or more supporting Infrastructure Networks provides communications to support the ATSVR. The ATSVR location function may also include one or more supporting Position Reference Sources.
Some Short Range devices may be triggered by or may use long range communications and vice versa.
Some Interfaces are not within the scope of this EN. These comprise interfaces to or from sensors, actuators and human operators; from position reference sources, e.g. GPS, LEAs internal interfaces, etc.
Detection Equipment “knows” the time; in case of stationary equipment, it “knows” its coordinates, etc. The Detection Equipment may concatenate these data elements to the data coming from the vehicle, when sending a complete data set to ATSVR System Operating Centres or to LEA as described in other parts of this EN.
Wherever possible the same specifications, data structures, contents, and definitions have been used throughout this EN. This EN does not seek to define the requirements or actions of the various human elements of the ATSVR, but it does aim to identify the interactions and interfaces that exist amongst the equipment and human elements operating within the system.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 7 | 1 Scope 2 Normative references |
| 8 | 3 Terms and definitions |
| 9 | 4 Symbols and abbreviations |
| 11 | 5 Requirements for Short Range Operations 5.1 Detailed Architecture Diagrams and Sequence Diagrams 5.1.1 Detection by CONSULTING Architecture Diagram |
| 12 | 5.1.2 Detection by CONSULTING Sequence Diagram 5.1.3 Detection by SIGNALLING Architecture Diagram |
| 14 | 5.1.4 Detection by SIGNALLING Sequence Diagram |
| 15 | 5.2 Identification Function 5.3 Remote Activation Function |
| 16 | 5.4 Remote Deactivation Function |
| 17 | 5.5 Remote Degradation Function (optional) |
| 18 | 5.6 Theft Indication Function 5.7 Interaction Sequences |
| 19 | 6 Operating Characteristics 6.1 General 6.2 Characteristics common to both OBE and DE 6.2.1 Definition of Telegrams between OBE and DE 6.2.2 Collision Capability 6.2.3 Collision Capability in Case of Simultaneous Polling and Signalling |
| 20 | 6.2.4 Frequency, Bandwidth, Modulation, other RF characteristics |
| 22 | 6.2.5 Usage of DSRC physical layer 6.3 Characteristics of On Board Equipment “OBE” in a vehicle 6.3.1 RF transmit power 6.3.2 Battery 6.3.3 DC Current Consumption 6.3.4 Data Storage 6.3.4.1 General 6.3.4.2 Permanent Storage Space 6.3.4.3 Over-writeable Storage Space |
| 23 | 6.3.5 Connection to a Vehicle Internal Bus System 6.4 Characteristics of the Detection Equipment “DE” 6.4.1 General 6.4.2 The Communications Networks Interface 6.4.3 DE Internal Data Bank 6.4.4 Types of Detection Equipment |
| 24 | 6.5 Communication distance between OBE and DE 6.5.1 Case 1: Stationary detection equipment and OBE 6.5.2 Case 2: Mobile detection equipment and OBE 6.5.3 Case 3: Hand held detection equipment and OBE 6.6 Vehicle speed limits 6.7 Minimum Number of Activations without Vehicle Battery 6.8 Discrimination among Vehicles |
| 25 | 7 Data Elements 7.1 Introduction 7.1.1 General |
| 26 | 7.1.2 Encryption 7.1.3 Reference list 7.1.4 Signalling 7.2 Data Elements Common to both OBE and DE 7.2.1 General Data Elements |
| 27 | 7.2.2 Specific Data Elements |
| 28 | Annex A (informative) Regulatory issues A.1 Communication Devices A.2 Radio Transmissions A.3 Public Liability Insurance |
| 29 | Annex B (informative) State chart diagrams of the ATSVR processes |
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