SOURCE ETSI TITLE UWB Applications in ETSI AGENDA
SOURCE: ETSI TITLE: UWB Applications in ETSI AGENDA ITEM: GRSC 5. 9 CONTACT: Alan@copsey-comms. com Thomas_J. Weber@BNetz. A. de J-Schuermann@jsconsult. de TG 31 A TG 31 B TG 31 C GRSC 4(06)09 UWB Applications in ETSI Technology and Standards Presented by Alan Dearlove ETSI ERM TG 31 A GSC: Standardization Advancing Global Communications 1
Goals • • Globally acceptable UWB standards Interoperability of systems Regulatory solutions for global deployment Increase user, consumer and government confidence • Support global trade • ETSI ERM-TG 31 A, TG 31 B, TG 31 C Work Program: – Provision of standards, regulatory solutions for UWB Technology to enhance safety and work efficiency in public and private areas GSC: Standardization Advancing Global Communications 2
Areas of Activity 1 ETSI ERM_TG 31 A: Communications LATEST UPDATE – Draft EN 302 065 for Technical Body approval – Draft EMC standard under preparation – Draft European Commision Decision under finalisation – Number of independent interference trials underway GSC: Standardization Advancing Global Communications 3
Areas of Activity 2 ETSI ERM_TG 31 B: Vehicular Radar - Enhance traffic safety by UWB vehicular Short Range Radar (SRR) Globally supported by SARA *), the automotive vehicle radar industry group, - Status of Standardization: 1. EN 302 288, 24 GHz SRR; published 2. EN 302 264, 79 GHz SRR Ø European Commission and CEPT Frequency Decisions for 24 and 79 GHz -in work -published *) SARA – Short range Automotive Radar frequency Allocation GSC: Standardization Advancing Global Communications 4
Areas of Activity 3 ETSI ERM_TG 31 C: - UWB Sensors Enhance safety and work efficiency in public and private building, the construction and the medical environment areas Status of Standardization 1. EN 302 435 Building Material Analysis; PE*) 2. EN 302 500 Location Tracking-indoor; 3. EN 302 501 Location Tracking-outdoor; 4. EN 302 498 Object Discriminat. & Charact. 5. EN 302 499 Object Identific. f. Surveillance approved for PE*) in work Ø CEPT Frequency Decisions under development *) PE = Public Enquiry GSC: Standardization Advancing Global Communications 5
Conclusion • ETSI proposes to modify the Resolution GSC-10/11 (GRSC) Global UWB Standardization to include UWB Radar and Sensor/Imaging Applications GSC: Standardization Advancing Global Communications 6
ETSI UWB Radar and Sensors standardization Presented by Thomas Weber ETSI ERM TG 31 B GSC: Standardization Advancing Global Communications 7
24 GHz UWB Short Range Radar SRR for Surround Sensing – possible applications Parking aid Blind spot detection Precrash Stop & Go for ACC Backup parking aid Rear crash collision warning Collision mitigation Blind spot detection Lane change assist Ø Complete surround sensing with 8 sensors Ø Multiple applications with one kind of sensor GSC: Standardization Advancing Global Communications 8
24 GHz UWB Short Range Radar Why UWB Radar? Radar sensors enable obstacle detection in most driving situations Available day and night Widely independent of weather conditions Radar is a key enabling technology for innovative driver assistance systems and safety systems GSC: Standardization Advancing Global Communications 9
24 GHz UWB Short Range Radar can address 88 % of all rear-end crashes Driver Inattention 68% 11% Inattention and following too closely Source: NHTSA 9% 9% Alcohol Following too closely GSC: Standardization Advancing Global Communications 10
24 GHz UWB Short Range Radar. Why UWB Radar? High resolution UWB SRR systems are capable of reliable object tracking, to predict the path of encountering obstacles This is vital to predict potential crashes Low resolution narrowband radar system are unreliable in tracking objects Predictability even deteriorates with multiple objects in field of view. GSC: Standardization Advancing Global Communications 11
24 GHz UWB Short Range Radar ETSI - CEPT FCC Note: Time-limited placement on the market of 24 GHz SRRs in the EU member states until 30 th June 2013. After this date only 79 GHz SRRs with a level of – 3 d. Bm/MHz are to be placed on the market. GSC: Standardization Advancing Global Communications 12
24 GHz UWB Short Range Radar Global deployment of UWB SRRs US: Regulation in force since 2002 Canada: EU: Regulation Russia: in force since Discussion 2005 *) Japan / Far East: Discussion In preparation EU action: SRR integrated in e. Safety program Since cars are sold worldwide, a globally armonized frequency regulation is very important. NZ: 24 GHz Regulation released SGP, Australia: 24 GHz in preparation *) the 24 GHz regulation is limited to 2013 GSC: Standardization Advancing Global Communications 13
Overview – UWB Sensor Systems GPR / WPR & Concrete Inspection Building Material Analysis and Classification Object Discrimination and Characteriz. Identification for Surveillance Type 1 Type 2 e. g. (in- door out - door) hazardous tools -Professional Users TR 102 994 -2 EN 302 066 Location Tracking TR 102 495 -1 EN 302 435 TR 102 495 -3 TR 102 495 -4 TR 102 495 -2 EN 302 500 EN 302 501 EN 302 498 TR 102 495 -5 EN 302 499 TR 102 495 -6 EN 302 5 xx GSC: Standardization Advancing Global Communications 14
Application Examples Building material analysis and classification EN 302 435 èLocalization of hidden targets in constructions e. g. pipes, holes, wires for increased safety while e. g. drilling, construction testing èCharacterization of material, e. g. metal or plastic or humidity èSensors could be attached/integrated in Tooling equipment GSC: Standardization Advancing Global Communications 15
Application Examples Location Tracking EN 302 500 èLocalization of Object in a range gate èTracking of target movements within the detection range èSensor Tracking technology for mass market applications èIndoor tracking applications covered by FCC regulation and ECC UWB decision GSC: Standardization Advancing Global Communications 16
Application Examples Object Discrimination and Characterization EN 302 498 Object Identification for Surveillance EN 302 499 è Identification of humans (adult or child), animals, objects in different environments e. g. buildings, rooms, cars in normal and emergency situation è Measure heartbeat and breath frequency to monitor the physiological condition è Enabling of faster rescue and security actions and increased passenger safety GSC: Standardization Advancing Global Communications 17
Application Examples Object Discrimination and Characterization EN 302 498 • Example: Safety sensor for “hazardous” tools Tool Workpiece Sensor GSC: Standardization Advancing Global Communications 18
Application Examples Concrete Inspection Principle scenario for detecting and determining the position and depth of tendons and rebars in a bridge structure. The UWB handheld scanner is moved over a grid in order to image the buried UWB inspection tendons and rebars. The position is device marked on the grid. UWB inspection device Example for the application of a UWB Concrete Inspection device to locate tendons or rebars for preparation of throughdrillings in a bridge slab using diamond cores. GSC: Standardization Advancing Global Communications 19
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