ES10 Communications Policy and ITS in Japan 19 November 2008 Yasushi SAKANAKA Director for Land Mobile Communications Radio Department, Telecommunications Bureau Ministry of Internal Affairs and Communications, Japan
Contents - Development of Radio Systems and ITS in Japan -Large-scale demonstration tests for DSSS - New spectrum for ITS 1
Development of Radio Systems in Japan Japan s radio spectrum use has dramatically expanded, both in quality and quantity. 108 million stations Next-generation mobile communication system, mobile, office, mobile home Mobile: 4,195 Fixed: 552 Broadcast: 80 Others: 291 5,118 stations 3.81 million stations Mobile. 1.07 million Fixed. 0.038 million Broadcast. 0.024 million Others. 2.68 million Mobile. 106 million Fixed. 0.1 million Broadcast. 0.024 million Others. 2 million Internet at anytime Alternative system to cable broadband Wireless broadband Safe and secure ITS Broadcast Satellite e-mail Mobile phones TV phones Marine communications Fixed microline Wireless LAN Next-generation information appliances, home networks Emergency communications 1950 The public sector 1985 The private sector 2008 The cellular phone to 3G Short-range radio communications In the Future Next-generation mobile communication 2
Radiowave Media in ITS Broadcasting Type Wide Area (Broadcast) FM multiplex broadcasting -VICS- (Vehicle Information and Communications System) Communication Type Wide Area (Interactive) Mobile Phone -Telematics- Public service providing traffic information GPS Car ahead Sensor Type In-vehicle millimeter wave radars(60,76ghz) Millimetri c wave Cars on both sides Communications between cars Short Range -DSRC- (Dedicated Short Range Communication) DSRC Road-side antenna IC card OBU ~100m ITS for the pedestrians using RFID, etc There is a step. Will change lanes Too close -ETC-(Electronic Toll Collection) Parking-lot control system Automated gate operations/vehicle guidance Interactive wireless communication Filling station 60 liters 5,500 yen. 3
VICS What s VICS? A groundbreaking telecommunications system that sends out real-time traffic congestion information and traffic control information, edited and processed in the VICS Center, through various communications mediums. The information is displayed in text and graphics on car navigation systems and other onboard units. VICS information is provided 24 hours a day throughout the year. Information collection Information processing Information provision Information utilization Road Administrator radio beacon (highway) 64kbps Car navigation, etc. Level I: Text Information JARTIC VICS Center optical beacon (main road) 1Mbps Level II: Simple Graphic Information Prefectural police department FM multiplex broadcasting (wide areas) 16kbps Level III: Mapped Information million 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Total Number of Shipped VICS System Equipment Total Number of All Shipped VICS July, 2004 10 million November, 2007 20million Jun-96 Dec-96 Jun-97 Dec-97 Jun-98 Dec-98 Jun-99 Dec-99 Jun-00 Dec-00 Jun-01 Dec-01 Jun-02 Dec-02 Jun-03 Dec-03 Jun-04 Dec-04 Jun-05 Dec-05 Jun-06 Dec-06 Jun-07 Dec-07 Nov-07 Jun-08 4
ETC What s ETC? The ETC system collects payment at toll roads without stopping the vehicle by using wireless communication between the tollbooth and the onboard unit. Road-side Transmitter Tow-way Radiocommunication IC Card OBU million 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Total Number of Shipped ETC OBUs Total Number of All Shipped ETC OBUs Total Number of Newly Shipped ETC OBUs November, 2007 20million December, 2005 10million ~ Jun-01 Oct-01 Feb-02 Jun-02 Oct-02 Feb-03 Jun-03 Oct-03 Feb-04 Jun-04 Oct-04 Feb-05 Jun-05 Oct-05 Feb-06 Jun-06 Oct-06 Feb-07 Jun-07 Oct-07 Feb-08 Sep-08 700 600 500 400 300 200 100 0 thousand 5
New Services using DSRC System Credit company Post office/bank Security/certification authority VICS by DSRC IC card Latest traffic information was received. Expressway Tollgate (ETC system) The charge from XX Interchange is 3,000 yen. On-board device AHS-i Oncoming car approach information The oncoming car is approaching!! Parking-lot control system Automated gate operations/vehicle guidance Contract No. 324 confirmed. 13:18. Charging settlement system 60 liters 5,500 yen. Filling station Cargo physical distribution (PD) management system Distribution center AHS: Advanced Cruise-Assist Highway Systems IC card 6
Telematics Services Private sector services started in 1997 in Japan Automobile Service Applications (Over 1,500,000 units in service today) Brand Names of Telematics Service G-BOOK ALPHA - G-BOOK mx TOYOTA, MAZDA, SUBARU, DAIHATSU G-Link LEXUS CARWINGS NISSAN InterNAVI PremiumClub HONDA navigate through optimal driving route for road traffic information of probe communication etc 7
Millimeter Wave Car Radar [Type of Sensor] Object Sensor Supersonic sensor Laser sensor Characteristics Small-scale and low cost, but, easy to receive surrounding noise. Short distance. High precision, high functionality possible. Weak against poor weather conditions (especially fog). 24GHz (Being discussed in the Telecommunications Council) 60GHz Enacted in Since 1995 76GHz Most commonly used Since 1997 Millimeter radar High precision, high functionality. Can be used in all weather. Used both in short and long (1~100m) Additional bands (ex. 79GHz) (R&D to High Resolution Millimeter Rader System for ITS) Image sensor High precision, high functionality possible. Complex image processing technology required. Weak against bad weather (particularly fog and rain). Millimeter Wave Car Radar Millimeter wave Car on side Car in front ~100m 8
High Resolution Millimeter Rader System for ITS Outline Millimeter rader Close two objects 1Develop broadband radar using high spectrum band (79MHz band) It is difficult to identify objects preciously by current radar system (60/76GHz radar) because current millimeter radar uses wider pulse (uses 100-200 MHz bandwidth) 2Investigate methods to avoid interference with millimeter radar systems itself Possibility of interference Schedule Current radar system Distance Broadband radar (1 1.3 GHz bandwidth (max 3GHz)) Rule making 2007-2009(3 year project) Realize high resolution and high accuracy Other system s ch To avoid interference, change spectrum band to use accordingly 78~81GHz f Distance New radar system Fail to identify the objects is one person Be available to identify two different objects Distance Target Current radar system 1 m resolution New radar system 20 cm resolution 9
Large-scale demonstration tests for Driving Safety Support Systems(1) -IT New Reform Strategy- Targets The world s safest road traffic environment - Reducing traffic fatalities to 5,000 or below - Reduce the number of traffic fatalities and serious injuries by deploying Cooperative Driving Safety Support Systems. Policies Based on the results of the above investigations, conduct large-scale verification testing of Driving Safety Support Systems through collaboration between the public and private sectors on the selected regional public roads while maintaining harmony with local traffic patterns, investigate the best form of effective service systems, and make quantitative assessments of the contribution to reductions in traffic accidents by FY 2008. 10
Large-scale demonstration tests for DSSS (2) ITS Promotion Council (ITS-Safety 2010) The New IT Reform Strategy stipulated that form a joint committee from the public and private sectors in early 2006 investigate the form of effective services/systems. In April 2006 the ITS Promotion Council and Working group was established with the Cabinet Secretariat (IT Policy Office) as the coordinator and its members are now examining large-scale demonstration tests. [Members] 4 ITS-related agencies/ministries (NPA, MIC, METI, MLIT), Cabinet Secretariat, Nippon Keidanren (Japan Business Federation), ITS Japan, Compiled The form of the demonstration tests for the Implementation of Driving Safety Support Systems report 3. Driving Safety Support System Platform Driving safety support systems can be categorized into the following three systems: (1) Road-to-vehicle communication systems (2) Vehicle-to-vehicle communication systems (3) Intercommunication systems between pedestrians, roads, and vehicles 11
The verification tests of DSSS by MIC Investigations and verifications for the practical use of driving safety support telecommunication systems (2007 2009 [scheduled]) Overview: In actual environments, verify the effectiveness of a number of radio spectrum media in vehicle-to-vehicle communication systems and road-to-vehicle communication systems that support safe driving. Contribute to pre-testing in FY2007 and large-scale demonstration tests in FY2008 Case 1: Rear-end collisions Case 2: Collisions with oncoming vehicles 車車間通信により 接近車両の情報を入手 直交道路上を走行中の車両に対する情報提供 注意喚起 警報 制動制御 停止車 低速走行中の車両情報を送信 自車位置等の情報を送信 状況 : 追突場所 : 単路 交差点違反項目 : 安全運転義務違反 状況 : 出会い頭衝突場所 : 一時停止交差点 信号なし 一時停止なし交差点違反項目 : 安全運転義務違反 12
Degital Devidend and ITS 90~108MHz (1~3ch) Analog TV Broadcasting 170~222MHz (4~12ch) Analog TV Broadcasting 470~770MHz (13~62ch) Analog TV Broadcasting Digital TV Broadcasting After digitization Digital TV Broadcasting (13~52ch) 90 108 170 222 710 770 Telecommunications Council Report (June 27, 2007) 90~108MHz 170~222MHz 710~770MHz 90 108 170 202.5 207.5 222 715 725 730 770 Self-owned communications (to preserve security and safety) Broadcasting (multi-media mobile broadcasting etc.) ITS Telecommunications (cellular phones etc.) 13
Study Group on Advancement of ITS Radio Systems Aiming to facilitate effective use of spectrum for ITS as well as to clarify the requirements for radio systems used in driving safety support systems, including the vision for vehicle-to-vehicle communications, MIC establishes the Study Group on Advancement of ITS Radio Systems. Purpose To formulate the vision for vehicle-to-vehicle communications To clarify the requirements for radio systems used in driving safety support systems Study Items (1) Vision of usage for ITS radio systems for driving safety support systems (2) Radio system functions desired for vehicle-to-vehicle communications and requirements for the system (3) Issues and stratages toward the realization of vehicle-to-vehicle communications Study Group Members Academic experts, Automakers, Electrical manufacturers, Related organizations, users, ITS-related agencies/ministries(npa, METI, MLT) Study Period The study group held its first meeting in October 2008, and compile a report by around May 2009. 14
Establishment of Ubiquitous Special Zones Purpose Outline Location Period Developing new ICT services responding to the global market needs. Implementing comprehensive projects by making the most of two limited resources: available frequency bands and the government budget ( 2 billion in FY2008). Minister adopted 28 projects. Three-year period from FY2008 through FY2010. Survey on the possible locations and available frequency bands (June to Aug 2007) Announcing available frequency bands and inviting project proposals (Sep to Oct 2007) Total proposals received: 188 Budget request for FY2008: 2 billion Encouraging relevant ministries/ agencies and other countries (Nov 2007 and onward) Assessing the proposals (Nov to Dec 2007) Based on the proposals, encourage the following: Relevant ministries/agencies efforts to develop the environment Cooperation with other countries (e.g. sister ubiquitous special zones ) Assess and check the proposals as to the following points Categorization of the target projects Target areas Availability of radio waves 28 projects selected Establishing ubiquitous special zones Establish special zones based on the assessment Determine and announce the following to establish ubiquitous special zones : (1) Target areas (2) Project details (3) Frequencies (when radio waves are used) 11 with funding 17 without funding 15
Image of Ubiquitous Special Zone Conduct development and demonstration experiments of the world s most advanced ICT services in ubiquitous special zone to establish new models that can be globally launched under the initiative of Japan 16
ITS Projects for Ubiquitous Special Zones Out of a total of 28 ubiquitous special zone projects, 8 are ITS projects. 1 project with funding Project Region Frequency Verifying car navigation system supporting comfortable drive for tour drivers Uruma City, Okinawa Prefecture 700 MHz band 5.8 GHz band 7 projects without funding Project Targeted Project Region Frequency Safe driving supporting system by vehicle-tovehicle communications Denso Corporation, Abashiri City Abashiri City 700 MHz band 5.8 GHz band Infrastructure cooperation safe driving supporting system by road-to-vehicle and vehicle-to-vehicle communications Toyota Motors and 8 other companies Tsukuba City, Yokosuka City 700 MHz band 5.8 GHz band Infrastructure cooperation safe driving supporting system by road-to-vehicle and vehicle-to-vehicle communications Toyota Motors and 8 other companies Toyota City, Nagakute Town 5.8 GHz band Infrastructure cooperation safe driving supporting system by road-to-vehicle and vehicle-to-vehicle communications Fujitsu, Toyota Motors, Toyota InfoTechnology Center Kisarazu City 700 MHz band Verifying frequency utilization technology for vehicle-to-vehicle communication Oki Electric, Toyota Central R&D Labs, NICT Tsukuba City, Yokosuka City 700 MHz band 5.8 GHz band Server type of drive assist service with mobile WiMAX Mazda Hiroshima City Frequencies for mobile phones, 2.4 GHz band, 2.5 GHz band Car electronic service Kitakyushu-shi Kitakyushu City 700 MHz band 5.8 GHz band To sharing information among relevant players,mic hold liaison meeting of ITS Projects for Ubiquitous Special Zones 17
Thank you! Ministry of Internal Affairs and Communications http://www.soumu.go.jp/ 18