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Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)
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Sports: Electronic tracking and analysis system: Local Position Measurement (LPM)

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Local Position Measurement (LPM) is an electronic tracking system on high-frequency basis. It is used to measure and visualise the athletic performance as well as individual and team tactic in real …

Local Position Measurement (LPM) is an electronic tracking system on high-frequency basis. It is used to measure and visualise the athletic performance as well as individual and team tactic in real time.

Elite sport clubs, training and sport centres as well as youth academies use LPM to improve the strengths, speed and endurance of
the athletes and to avoid injuries and overload by employing highly individualised, innovative and efficient training methods due to the usage of
LPM.

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  • 1. LOCAL POSITION MEASUREMENT.Sports
  • 2. LOCAL POSITION MEASUREMENT at a glance ABATEC AG (AT) JF PARTNERS CONSULTING UND MANAGEMENT GMBH (AT) Electronic high-tech solutions expert high- International sales specialist Development LPM hardware and International sales of the LPM system in software the field of sport International sales in all fields of application INMOTIO OBJECT TRACKING BV (NL) Research and co-development of Sport software development and sales the LPM system: specialist AEC futurelab (AT), Siemens Munich Development LPM software (DE), ARC Austrian Research Centers (lpmSoccer3D, lpmIceHockey3D, Seibersdorf (AT), LCM - Linz Competence lpmSkate3D) Center of Mechatronics (AT), SCCH - International sales in the field of sport Software Competence Center Hagenberg (DE), TNO - Netherlands Organization for Applied Scientific Research (NL)
  • 3. LOCAL POSITION MEASUREMENT. Sport Local Position Measurement (LPM) is an electronic tracking system with sport-specific software. It is used to measure and visualise the athletic performance as well as individual and team tactic in real time. Elite sport clubs, (Olympic) training and sport centres as well as youth academies use LPM to improve the strengths, speed and endurance of the athletes and to avoid injuries and overload by employing highly individualised, innovative and efficient training methods due to the usage of LPM.
  • 4. LOCAL POSITION MEASUREMENT. Sport Local Position Measurement (LPM) can be employed in individual sport and team sport for training purposes and/or competitions or matches. Sport-specific software developed conjointly with experts, trainers and elite clubs is available for: Speed ice skating - lpmSkate3D® Ice hockey- lpmIceHockey3D® Football - lpmSoccer3D® Team sports - lpmHandball, lpmHockey etc. LPM can be used in a number of further sports such as cycling, motorsports, skiing, horse racing etc.
  • 5. LOCAL POSITION MEASUREMENT. in a nutshell The LPM-system concurrently measures position, speed, acceleration and the heart rate Data is generated via radiofrequency technology and results from wireless communication between two entities: a transponder which is carried in a lightweight, nondisruptive vest by each athlete and several (base) stations positioned around the athletic field (e.g. ice rink, pitch) and connected to a computer. Coverage of several athletic fields (one cell up to 500x500 meters) Indoor and outdoor usage
  • 6. LPM Software. Sports-specific Software LPM provides you real-time with the following information on one screen: Computer animation of the athletic field (e.g. ice rink, pitch), the athlete and the ball (e.g. football, handball) Display of collected data numerically or graphically Live video-streaming of the training or competition (import of data from video- or GPS-systems possible) in an integrated video window on the screen – no manual processing to identify the player
  • 7. LPM Software. Analysis and Visualisation Trainers, analysts and athletes take advantage of user-friendly lpm software - lpmSkate3D®, lpmIceHockey3D®, lpmSoccer3D®, lpmTeamSports (lpmHandball, lpmHockey etc.) and benefit from numerous innovative visualisation and analysis options: Arrange the data on the screen according to your needs, pick out and follow individual athletes from the player list, form groups and compare players or groups of players Have a closer look at key situations, repeat them – slow motion or fast motion or in time lapse, mark them or set time markers Watch the competition or training from several perspectives of the athletic field or from the athlete’s perspective Present the analysed data in numbers (e.g. in tables) Create analysis diagrams from the measured data according to your wishes and suited to your training methods , add drawings Export and store the data and/or analyses in a database (also regarding a specific competition or training scene together with the corresponding video stream)
  • 8. LOCAL POSITION MEASUREMENT. lpmSoccer3D® Local Position Measurement (LPM) is an electronic tracking system with soccer-specific software – lpmSoccer3D®. It is used to measure and visualise the athletic performance of football players as well as individual and team tactics in real time. Elite football clubs, training centres and youth academies use LPM to improve the strengths, speed and endurance of the football players and to avoid injuries and overload by employing highly individualised, innovative and efficient training methods due to the usage of LPM.
  • 9. lpmSoccer3D® lpmSoccer3D®. Analysis Options Training Speed and Movement Tactical Exertion Transition Intensity Insight Heart rate, speed, distance Acceleration response Physical condition / Recovery Progress of each player Game strategies in combination with heart rate data to be used for the preparation of training plans and athlete comparisons.
  • 10. lpmSoccer3D® lpmSoccer3D®. Analysis Example – Heart Rate Training Exertion lpmSoccer3D® provides insight into the heart activity of the players on the field in relation to training exertion. By comparing the training response related to the heart rate with the number and types of actions, the trainer gets a complete picture of the player's physical fitness. lpmSoccer3D® reveals whether the exertion of the players meets the training goals set. Trainers can accordingly adjust a player's individual training program or change exercises.
  • 11. lpmSoccer3D® lpmSoccer3D®. Analysis Options Training Speed and Movement Tactical Exertion Transition Intensity Insight Speed categories Agility measurement Transition Time on the pitch
  • 12. lpmSoccer3D® lpmSoccer3D®. Analysis Example - Speed Speed and Transition Speed – focussed ‘explosivity training’ in a group of players Due to lpmSoccer3D® speed measurement of groups of players at the same gives the trainer insight into exact speed at any point of time during the run. ‘Explosivity’ of the players becomes visible to the trainer and allows him to make appropriate changes to the individual player's training regime. lpmSoccer3D® replaces sport physiologists conducting speed measurements of players in order to gain insight into the speed of players over a specific distance.
  • 13. lpmSoccer3D® lpmSoccer3D®. Analysis Options Training Speed and Movement Tactical Exertion Transition Intensity Insight Training load Training response Physical condition/recovery High intensity actions
  • 14. lpmSoccer3D® lpmSoccer3D®. Analysis Example - Recovery Training Exertion In order to gain insight into the physical performance of players during the football season, it is essential to get information on the degree of recovery of the players during and after a specific training exercise. By precisely monitoring movement in combination with the heart rate, individual recovery patterns can be determined. Performance data collected during a training can be updated easily in a personal player file with lpmSoccer3D®.
  • 15. lpmSoccer3D® lpmSoccer3D®. Analysis Options Training Speed and Movement Tactical Exertion Transition Intensity Insight Man to man marking Putting pressure Team transition Teamwork Zonal defense Attack and defense in relation to winning and losing the ball Attacking technique of the team /players
  • 16. lpmSoccer3D® lpmSoccer3D®. Analysis Example - Tactics Tactical Insight For scoring putting pressure on the opponents and a quick switch from defense to attack are considered essential. lpmSoccer3D® improves the players' tactical insight and understanding of specific game moves.
  • 17. lpmSoccer3D® lpmSoccer3D®. Innovative forms of analysis and visualisation
  • 18. lpmSoccer3D® lpmSoccer3D®. Innovative forms of analysis and visualisation
  • 19. lpmSoccer3D® lpmSoccer3D®. FC Bayern München ‘ The LPM-system visualizes and reasonably complements our training methods. Owing to the state-of-the-art LPM technology trainers and analysts can provide players with instant and individual feedback.‘ Max Reckers, performance analyst FC Bayern München
  • 20. lpmSoccer3D® lpmSoccer3D®. PSV Eindhoven Youth Academy lpmSoccer3D® effectively supplements the PSV Eindhoven youth training programme: Development and more efficient individual support of top talent Objective analysis and comparison of the performance of youth players Accurate records of performance data during the football season for an early identification of talent (e.g. creation of individual player profiles) Prevention of overexertion and injuries Effective training of players for the starting line-up Faster and better promotion of talented players into the starting line-up or higher transfer fees
  • 21. lpmSoccer3D® lpmSoccer3D®. Benefits for the training staff and the players Due to the high frequency of the measurement (up to 1,000 m/s, e.g. 11 measured football players: ~ 91 measurements/s) and the high accuracy of the measurement both in static and dynamic conditions (+/-3 cm) at various speeds, trainers can benefit from a consistent tracking and visualisation of the physical key indicators and tactical behaviour of the players Therefore training staff can give: prompt or real-time feedback e.g. during the training or straight after an exercise objective feedback based on facts (measured indicators and analyses diagrams) constructive feedback by visualising the player alternative options he would have had (in a specific match scene) or showing the player that he is doing right (e.g. plays according to goals set during a training), thus increasing the player’s understanding for specific training methods unmistakable feedback by overcoming linguistic burdens through data visualisation
  • 22. LOCAL POSITION MEASUREMENT. lpmHandball
  • 23. LOCAL POSITION MEASUREMENT. lpmSkate3D® The performance of speed skaters can be improved with lpmSkate3D® by providing live performance skating-specific indicators to the coach: Skating trajectory, Track and curve comparisons Lap timing and lap segments, sector timing: speed and acceleration, maximum speed, average speed Maximum speed (point in time) Speed after start and continuation, speed categories Covered distance Distance between skaters Skater comparisons Team pursuit
  • 24. lpmSkate3D® lpmSkate3D®. Benefits Speed, heart frequency and the position of the individual skater can be displayed in real time by simply clicking on the skater Timing per lap or lap segment - Sector timing Covered distance Average speed per sector and lap Benefits Improvement of athletic performance Improvement of individual technical skills and technical skills of the whole team Improved of race strategies (determination of ideal race and corner strategy) An installation around an ice rink can also be used for other sports on ice e.g. short track skating, ice hockey and figure skating
  • 25. lpmSkate3D® lpmSkate3D®. Analysis Software
  • 26. lpmSkate3D® lpmSkate3D®. Analysis Software Race Strategy Measurement of speed after start and continuation Measurement of maximum speed (point in time) during race Team pursuit; measurement of speed and heart activity
  • 27. lpmSkate3D® lpmSkate3D®. Analysis Software
  • 28. LOCAL POSITION MEASUREMENT. lpmIceHockey3D® lpmIceHockey3D® is used for monitoring the performance of ice hockey or bandy players. The system can be used in training sessions and in matches. Measurement of ice hockey-specific performance indicators: Speed on ice: average, shift, sprints Covered distances: ways on ice, average per shift Time on ice: activity, shift, halftime Speed and Transition Speed categories Agility (e.g. by measuring the player on a pre-defined agility circuit) Transition time from maximum speed down to zero and back to the maximum
  • 29. lpmIceHockey3D® lpmIceHockey3D®. Measured indicators Number of high intensity actions per player Performance of each player compared to the other players Achievability of minimum desired activity level of each player Endurance – speed, frequency, intensity Physical strain Intensity tracing – effect Tactics Man-to-man-marking Putting pressure - Opponent behaviour Team transition - Teamwork Overview – Zonal defense Cruising radius
  • 30. lpmIceHockey3D® lpmIceHockey3D®. Measured indicators Player profiles Assessment Decision competency Player's intelligence – overview – team behaviour Physical stamina – velocity – physical condition Predisposition – possible progression Potential and value of the player Training load and response to the training Physical condition / Recovery Progress of each player
  • 31. lpmIceHockey3D® lpmIceHockey3D®. Benefits Speed and acceleration of the player can be measured under real game conditions Analysis of puck losses Exact information on the movements of each player (meters covered on ice) Set up of individual player profiles to track the progress of each player Comparison of the team/individual performance during the training and in the match
  • 32. lpmIceHockey3D® lpmIceHockey3D®. Analysis Software
  • 33. lpmIceHockey3D® lpmIceHockey3D®. Analysis Software Speed and Transition Speed categories Agility (e.g. by measuring the player on a pre-defined agility circuit) Transition time from maximum speed down to zero and back to the maximum
  • 34. lpmIceHockey3D® lpmIceHockey3D®. Analysis Software Pressure Graph Team Transition Graph
  • 35. lpmIceHockey3D® lpmIceHockey3D®. Analysis Software
  • 36. LOCAL POSITION MEASUREMENT. lpmHockey
  • 37. LOCAL POSITION MEASUREMENT. lpmCycling
  • 38. lpmCycling. lpmCycling. Measured Indicators Distance Comparison of two racing lines Comparison of two cyclists Movement analysis Lap times and sector times Acceleration/sector Comparison of sectors Distance (gap) Distance from person in front Behaviour on changing position Error analysis
  • 39. LOCAL POSITION MEASUREMENT. lpmMotorsport
  • 40. lpmMotorsport. lpmMotorsport. Measured Indicators Distance (gap) Accelerating-braking-technique Error analysis Tracking Comparison of individual sectors / two driving lines / of braking points Lap times, sector times Complete distance, sector distances Average speeds, sector speeds
  • 41. lpmMotorsport. lpmMotorsport. Measured Indicators Drift analysis Representation and determination of the drift angle Time measurement
  • 42. lpmMotorsport. lpmMotorsport. Analysis Software
  • 43. lpmMotorsport. lpmMotorsport. Upgrades The following "upgrades" are available: Sensors (inertia sensors) Acceleration sensors (gyro sensors) Rev. sensors Height sensors Compass sensor (->Compensation for the line-of-sight condition of the LPM system) Camera system Automatic video recording (documentation) Review of the actual situation Automatic tracking of pre-defined vehicles Data recording Synchronisation of the measurement data on the vehicle with the position data Temperatures Vibrations, pressure (oil, air,…) Revs, etc.
  • 44. lpmMotorsport. lpmMotorsport. Camera System
  • 45. LOCAL POSITION MEASUREMENT. lpmAthletics
  • 46. lpmAthletics. lpmAthletics. Software
  • 47. lpmAthletics. lpmAthletics. Sector 4 Sector 1 Sector 3 Sector 2
  • 48. lpmAthletics. lpmAthletics. Analysis Example Speed - heart rate Max. 16 Max. 175 Heart Rate Herfrequenz 14 HR: 165 Hf: 165 170 12 Max. Max. Herfrequenz 10 Heart Rate 165 Hf: 174 HR: 174 8 6 Min. 160 Min. Herfrequenz Heart Rate Hf: 164 4 Min. Min. Herfrequenz HR: 164 155 2 Heart Rate Hf: 161 HR: 161 0 150 Geschwindigkeit Speed 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 Heart rate 26 28 30 32 34 36 38 40 42 44 46 48 50 52 Herzfrequenz Sektor 3 Sector 3 Sektor 4 Sector 4
  • 49. lpmAthletics. lpmAthletics. Analysis Example Speed progression Geschwindigkeitsverlauf 16 Ø 12,93 km/h Ø 13,59 km/h 15 Max. sp 14,8 km/h Max. sp 15 km/h 14 Min. sp 12 km/h Min. sp 12,4 km/h 13 12 11 10 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Speed ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 ,0 Geschwindigkeit 26 28 30 32 34 36 38 40 42 44 46 48 50 52 Sektor 3 sector 3 Sektor 4 sector
  • 50. lpmAthletics. lpmAthletics. Analysis Example 400-m race (divided into 4 Sektoren) 400- 400-m-Lauf (aufgeteilt in4 sectors) Speed 18 Max. v 16,1 km/h 200 180 16 160 14 Average Speed Ø 14.18 Durchschnittsgeschwindigkeit Ø 14.18 140 120 12 100 80 10 60 Min. v 12 km/h 8 Speed Geschwindigkeit 40 Heart rate Herzfrequenz 20 6 0 Time 3 0 7 3 0 7 3 0 7 3 0 7 3 0 7 3 67 33 00 67 ,3 ,0 ,6 ,3 ,0 ,6 ,3 ,0 ,6 ,3 ,0 ,6 ,3 ,0 ,6 ,3 0, 3, 6, 8, 11 14 16 19 22 24 27 30 32 35 38 40 43 46 48 51 sector 11 Sektor Sektor 2 sector 2 sector 3 Sektor 3 Sektor 4 4 sector 11,33 s 12,67 s 14,76 s 12,00 s
  • 51. lpmAthletics. lpmAthletics. Analysis Example Comparison of lap 1 to lap 5 Speed 18 15,5 Runde 1 Lap 1 13 Runde 5 Lap 5 Time 10,5 8 X-axis: Distance (400 m) Y-axis: Speed
  • 52. lpmAthletics. lpmAthletics. Measured Indicators Complete distance Comparison of two racing lines Comparison of two or more runners Analysis of movement sample Lap times Comparison of individual sectors Sector times Sector distances Distance (gap) Speed progression average speed, maximum speed, sector speed Distance to the person in front Error analysis
  • 53. lpmAthletics. lpmAthletics. Analysis Example Training exertion
  • 54. lpmAthletics. lpmAthletics. Analysis Example Monitoring whether training done with correct training exertion
  • 55. LOCAL POSITION MEASUREMENT. lpmHorseRacing
  • 56. lpmHorseRacing. lpmHorseRacing. Measured Indicators Real-time analysis of the race and the training Measurement of horse’s heart rate and recovery Comparison of individual sectors / of two racing lines Analysis of the race course Lap times, sector times Complete distance, sector distances Average speeds, sector speeds
  • 57. LOCAL POSITION MEASUREMENT. lpmSki
  • 58. lpmSki. lpmSki. Ski Each measuring point (per ski front and back) is recorded with a data rate of 250 Hz. The x- and y-coordinates are determined The transponders are fixed to the shoe and the antennae to the skis
  • 59. lpmSki. lpmSki. Analysis Software Ski Real time presentation of path, time, speed and distance from the slalom path Sector analysis with start-finish data and information from gate to gate
  • 60. lpmSki. lpmSki. Measured Indicators Ski Travelling speed Skiing lines comparison Distance of skier to the gate Length of the skiing line Radius Time from gate to gate Sector times Total distance travelled
  • 61. lpmSki. lpmSki. Analysis Example Ski Statistical analysis Maximum speed, average speed Total distance travelled, distance from gate to gate Time: Start – finish; time: gate – gate; sector times Distance from skier to the gate Radius of the skier Analysis of skier Analysis of distance travelled (too late or too early at gate) Superimposing other routes (ideal route, professionals‘ route, own route etc.) Skier‘s drift compared with the rear or front skiing line of a skier Optimum angle for the fastest possible speed in relation to the gate (radius vs. angle vs. speed)
  • 62. lpmSki. lpmSki. Slalom - Line comparison Ski Slalom Evaluation Skiing line at the beginning shows slight drifting: rear part of the ski almost completely follows the line of the front part From the second slalom pole the skiing line shows greater drifting: rear ski drifts away from the front ski in the curve Drifting increases with speed Records whether the skier slips or carves
  • 63. lpmSki. lpmSki. Slalom - Line comparison Ski Slalom Evaluation Comparison of 2 different ski paths and thereby different skiers (time difference, speed difference, etc.) Skiing technique to the gates or slalom poles (too late or too early at gate, ideal line vs. path taken) Display of differences or errors (drifting, different radii at the slalom pole, fast or slow navigation of the skier, etc.)
  • 64. lpmSki. lpmSki. Slalom - Line comparison Ski Comparison of two ski runs of a START skier regarding path, time and START speed with visualization of the skiing line Association of skiing line with Direct path: 78,93 m sector times and paths possible Distance: 86,73 m Distance: 84,37 m Time: 8,8 s Time: 8,23 s FINISH FINISH
  • 65. lpmSki. lpmSki. Skiing style Ski Drifting angle Drifting is clearly recognisable from the start up to after the second curve from the surface generated -> rear measuring point deviates from the front Final carving sweep -> rear measuring point follows the front in a line => Application in the professional field: Technique monitoring
  • 66. lpmSki. lpmSki. Skiing style Ski Drifting analysis Determine whether the skier carves cleanly (rear measuring point follows the line of the front) At slow speed a clean carving sweep can be detected -> at increasing speed the technique becomes ragged
  • 67. LOCAL POSITION MEASUREMENT. lpmSkiJumping
  • 68. lpmSkiJumping. lpmSkiJumping. Analysis Examples SkiJumping Approach speed Display actual speed in real time, maximum speed, average speed Display length of approach Comparison of approach speeds Flight path Display flight curve Comparison of individual flight curves Analysis of the flight curves of two different athletes Explosive power at the ski ramp Jump Display the jump, the distance, the jump speed
  • 69. REFERENCES. Sport Handball Olympic Training Centre Papendal NL Soccer PSV Eindhoven NL AZ Alkmaar NL AC Milan IT FC Bayern München DE Skating Russian Speed Skating Federation RU German Skating Association DE Ice Stadium Heerenveen NL Aviation Red Bull Air Race HU
  • 70. REFERENCES. Science Agroscope Reckenholz-Tänikon Research Station ART CH Bayerische Landesanstalt für Landwirschaft (LfL), Institut DE für Landtechnik und Tierhaltung (ILT) Institute of Agricultural Engineering, University of Bonn DE The Fraunhofer Institute for Factory Operation and DE Automation IFF Fraunhofer Institute for Manufacturing Engineering and DE Automation, Universität Magdeburg Research Institute for Communication, Information DE Processing and Ergonomics (FKIE) Research Institute for Optronics and Pattern Recognition (FOM), Research Establishment for Applied Science (FGAN)
  • 71. REFERENCES. Industry Stage Technique Z Koor AT Holiday On Ice DE Driving Safety ÖAMTC Safety Centre AT Logistics LOCANIS AG DE Event Equipment CSTI - Solutions NL Technology Innovation
  • 72. LOCAL POSITION MEASUREMENT. Installation Options Installation Options mobile 5 wireless version (from 8 10/2010) 6 1 semi-mobile version 3 2 fixed version 7 4 1 Operator 6 Base stations Stationary parts in case of semi-mobile 2 Linux-Server 7 Antennas usage 4 LWL-cable 3 Hub 8 Reference transponder 5 Tripods For detailed information on the technical parts, please contact us or download ‘LPM_technical_parts.pdf' from the LPM download area on jfpartners.at
  • 73. LOCAL POSITION MEASUREMENT. Get in touch Get a detailed presentation of Local Position Measurement (LPM) and a demonstration of lpmSoccer3D®, lpmSkate3D®, lpmIceHockey3D® at your place For further information: http://jfpartners.at/en/lpm.html JF Partners Consulting und Management GmbH Weigandhof 5 1100 Vienna Austria Tel: +43 1 402 40 59-22 Fax: +43 1 402 40 59-26 office@jfpartners.at Ingrid Rauscher i.rauscher@jfpartners.at Sophie Trombitas s.trombitas@jfpartners.at

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