Ministry of Land, Infrastructure, Transport and Tourism Bird Strike Control and Reduction in JAPAN Tomoya Miyoshi Civil Aviation Bureau (CAB), Ministry of Land, Infrastructure, Transport and Tourism (MLIT), JAPAN ICAO Wildlife Hazard Management Seminar Singapore, 14–16 May, 2014 1 Outline Bird Strike Control and Reduction system in JAPAN - Organization - Current Efforts - Program Bird Detecting System in Tokyo INTL Airport (HANEDA) -Background -Design Concept -Composition (presented by NEC on camera system) -Screen Image -Evaluation plan on Operation 2 Bird Strike Control and Reduction in JAPAN Introduction – Recorded Bird Strike 3 Introduction - 1 - Approximately 1900 BS reported in 2013. - 89 Civilian airports and 8 airports in Civilian-military joint use. The number of bird strikes in JAPAN. 2009 2010 2011 2012 2013 year BS reported 1617 1745 1599 1710 1903 0 200 400 600 800 1000 1200 1400 1600 1800 2000 4 Introduction - 2 The number of Damaged Aircraft caused by bird strikes in JAPAN . -In 2012, 3 cases are Aircraft Accident of severe damage. year 45 49 59 48 66 1 3 0 10 20 30 40 50 60 70 2009 2010 2011 2012 2013 Aircraft Accident Damaged Aircraft 5 Introduction - 3 The number of bird strikes in JAPAN per 10,000 movements. (21 Airports at 2013) (Other Airports) year 5.16 4.67 5.01 4.71 5.22 11.03 10.51 8.31 11.89 11.63 0 2 4 6 8 10 12 14 2009 2010 2011 2012 2013 With Bird Patrol Without Bird Patrol Committee to examine measures for BS prevention in Japan Work together Wildlife strike prevention program Regional CAB Airport operations Manual /Guidance materials Committee for BS prevention at the airport. Organization CAB,HQ Various activities Local Committee at Airports Regulatory Authorities Bird Patrol Habitat Control ICAO((((IBIS)))) Covered by Net Direct instruction Advice Instruction 6 Propane cannons Bird Sweeping National Committee 【Member】 Wildlife Control Specialists Aircraft Operators Ministry of the Environment Ministry of Defense Civil Aviation Bureau Airport Administrator Bird Patrol Officer 【Member】 Airport Administrator Air Traffic Controller/ Flight Operation Information Unit Airport/Navigation Facility Management Unit Local Government Aircraft Operator Terminal Building Management Company Bird Patrol Officer, etc. US Airways Accident Bird Strike Accident Current Efforts by National Committee 7 Improving the control system (Especially at night) Strengthening leadership of the Committee Bird Strike Information Sharing Site Bird Species Identification by DNA or Feather Analysis Installation of Bird Detecting System at HANEDA Raising the level of control program of the nationwide airports Introduction of control equipment for night operation Problem BS occurred : 39% at Night, Dusk, Dawn ◆ 60% of BS occurred are by unknown bird species. HANEDA has the highest BS events in Japan. (ca. 10%) Improving the monitoring system on the ecology of bird Improvement Policy 8 Habitat Control Airport Administrator/Operator Bird Sweeping Water area Removing grass Grass area Lines over water Nest Management Cutting trees Vegetation at or around Airport Bird Patrol Distress-call and nosegenerating system Bird Strike Control Program - 1 Environmental Assessment (Food, Water and Shelter) Pyrotechnic Birds Moving Route 9 Bird Strike Control Program - 2 Collect BS Report from aircraft operators by INTERNET. →Afterward, airport administrator add the missing information, for example “Bird species” All stakeholders can access the BS Database anytime. Bird Strike Information Sharing Site Sharing various information and documentation with all stakeholders ・Manuals ・Statistical Information ・Best Practices etc. https://bird.cab.mlit.go.jp/ - A purpose of this site is collecting the reports of the bird strike that occurred in Japan by Internet, and sharing various information about bird strike with all stakeholders. 10 Bird Strike Control Program - 3 Bird Species Identification by DNA or Feather Analysis -In order to implement the measures depending on the bird species, we identify BS occurred bird species by DNA or feather analysis fm 2010. BS occurs, collecting the residue from Runway or the aircraft Feather analysis (a part of bird body) -Compare to the residue and specimen DNA analysis -Analyze the DNA from residue and compare to the DNA DB (blood, bone, feather etc..) Send the residue to the research organization which contracted 11 Raising the level of control program of the nationwide airports Guidance material revised 2014 -This Guidance will help Airport Administrator to plan bird control program at each Airport The past Guidance was made in 1998 RevisedRevisedRevisedRevised Contents Outline of Bird Strike Control and Reduction system ◆ Effort and recommendations of the committee so far ◆ Best Practice ◆ Reflection of ICAO Doc 9137 Part 3 revised 2012 Direct instruction by National Committee If necessary, National Committee specialists visit the airport, and give direct instructions to Local Committee. ・・ ・ For Example ◆Effective way of Bird patrol ◆Habitat control to be implemented Bird Strike Control Program - 4 BIRDS Birds position Information Radar Display System (BIRDS) Installation at 2012 in Tokyo INTL Airport /RJTT (HANEDA) 12 2V+H+C V+C V+H C Runway 16L/34R: 3,000 x 60m 04/22: 2,500 x 60m 16R/34L: 3,000 x 60m 05/23: 2,500 x 60m (05/23 was installed 2010) Hours of Operation 24 Hours Number of Traffic 447,000per year (Approx 1,200flights/day) Tokyo INTL Airport /RJTT (HANEDA) BIRDS V :Vertical radar 4 H :Horizontal radar 2 C :Camera 3 Noise generating system 3 13 New RWY Program Bird Patrol Habitat Control Background 14 Problem & Background BS occurred : 39% at Night, Dusk, Dawn New RWY was installed In 2010 INTL Night Flights were increasing Considering with National Committee Purpose: To implement year-round BS preventive action Bird Patrol applied 24HRs Monitoring Bird Movement in and around airport CONSTANTLY Introduction of new DEVICE to prevent Night BS Examination for NEW technology 1% 60% 4% 34% 1% DAWN DAY DUSK NIGHT UNK 143 171 237 175 201 0 50 100 150 200 250 2009 2010 2011 2012 2013 The number of BS at HANEDA Percentage of occurrence time at HANEDA year BS reported Tactical Approach (Short term – real time monitoring) Ability to detect birds flying at higher altitudes by using radar technologies. Ability to detect activity of birds near ground level and low altitudes by using cameras. Providing real time information for bird patrollers. 15 Design Concept Strategic Approach (Long term – data analysis) Better understanding of bird activity (spatial and temporal) at airport. Data for improving the effectiveness of bird habitat control for safer operations and reduction of bird strikes. Data Processing Device 【【【【Birds Patroller (Outside) 】】】】Camera High Sensitivity Camera(x3) Radar H-Radar((((x2)V-Radar(x4) Noise generating system 16 Composition Mobile Tablet Camera monitor Operation Terminal Printer Data processing Maintenance Monitoring 【【【【 AD administrator / Birds Patroller’s office】】】】 ◆ SYSTEM consists in combination of Radar and Camera. →Camera cover the area where radar is not able to cover: ground level and very low altitude. ◆Mobile Tablet terminals provide real time information to Bird Patrollers. Screen Image ■■■■Horizontal Radar ■■■■Vertical Radar Duck 5 Close Species Number Date/time observed 2010/07/07 09:49:40 Point of observed 35°54’N 139°80’E ■■■■Birds species registration 17 *Birds patrol officer input observation records with mobile tablet. ■Birds camera monitoring Significant Monitoring Area (ALERM RINGING) Birds detecting Symbol Strength RCS> ●、●、●> weak RCS Vertical RCS ● Check Flying Altitude Watch Birds (if able specified birds species) L R Initial Phase Mastery of the usage, for example, learning the capability of the radars and cameras Adjustment of RCS levels suitable for the weather and environment characteristics of the airport. Accumulation of observation records of the bird patrollers and of detection information of the radars and cameras. Analysis of the accumulated data for habitat control. Improving efficiency of bird patrol (with mobile tablet) 18 Evaluation Plan on operation Initial PhaseInitial Phase Operational Trial Phase Operational Trial Phase Reduction BS Phase (PLANNED) Reduction BS Phase (PLANNED) Operational Trial Phase Study of further analytical methods of the accumulated data, for implementation and evaluation of effective and efficient bird strike control program. Assisting bird patrol activity by realtime monitoring. Using of the statistics function of camera, which was developed after initial phase. Reduction BS Phase (PLANNED) “Speedy Bird Sweeping” “Proactive Control with data analysis” Camera and image processing High sensitivity camera ▐ Automatic bird detection through image processing ▐ Ability to capture/store video images ▐ Automatic rotation ▐ Manual pan and tilt zoom for visual confirmation Performance Type of Camera Full High Definition The Number of Pixels 1,920 x 1,080 pixel Frame Rate 30 fps Lens Focus Range 16.7 mm-1,000 mm Image Processing Function Automatic detection of moving birds through image processing © NEC Corporation 2014Page 19 Two ways of operation: automatic vs. manual mode ▌ Automatic mode: automatic monitoring and detection of moving birds ▌ Manual mode: ability to control PAN/TILT/ZOOM/IRIS for visual confirmation ▌ Manual mode: DB registration of bird data (species, location, deterrence method) Camera and image processing AUTO PAN ZOOM © NEC Corporation 2014Page 20 Camera and image processing Video Capture Image Correction Differential image processing Filtering process Form analysis (Comparison) Object classification (Bird detection) Distortion compensation for skew, etc. Extraction of moving objects by subtraction of serial images after compensation Original image Subtracted image ▐ Advantage of utilizing advanced image processing techniques Skewed image Distortion compensated image Bird candidate extraction © NEC Corporation 2014Page 21 ▐ Advantage of utilizing advanced image processing techniques Video Capture Image Correction Differential image processing Filtering process Form analysis (Comparison) Object classification (Bird detection) Bird DB • Extraction of the information representing birds • Comparison between bird candidate and DB Birds Other objects ? ? Bird candidate Bird DB Camera and image processing © NEC Corporation 2014Page 22 Camera and image processing (Statistic graph 1/2) ▌ Based on the data from the log files, such as camera’s direction and time of bird detection, it is possible to create statistic graphs for better understanding of allocation of birds. The statistic data can be divided by camera direction (every 10 or 2 degrees) or time (every 1 hour or 5 minutes). ▌ The statistic graphs can be visually supported by background images, taken in advance by bird detection camera, displayed in both combined 360-degree or 30-degree view. Sample 1: Statistic graph showing data taken at 10- degree interval captured from 5AM to 6PM. Supported by 360-degree combined image view. © NEC Corporation 2014Page 23 Detectionrate (Framerate) Direction Time Numberofdetectiontimes Camera and image processing (Statistic graph 2/2) Sample 2: Statistic graph showing data taken from 10AM to 11AM within range of 30-degrees (from 120 to 150 degrees) at 2-degree interval. Supported by 30-degree image view. ▌ The operator can extract the camera log file according to preferred time and direction for more detailed analysis. © NEC Corporation 2014Page 24 Numberofdetectiontimes Direction Time Thank you for your attention !!! 25