2010/2011
   Mission    ◦ Bring to bear complex technological solutions,      promoting development and operation of intelligent   ...
   UAV: Unmanned Aerial Vehicle    ◦ “It is an aerial vehicle, with no operator on board, with fixed      or rotational w...
Environment                            Image Production               Processing              OperationDevelopment        ...
Development
   Aircrafts    ◦ Aircraft Projects    ◦ Sensors Projects   Embedded Systems    ◦ Autopilots    ◦ Controlling Systems   ...
Production
   Aircrafts    ◦ Production in Franca/São Paulo    ◦ Composite Materials Specialists       Carbon Fiber       Fibergla...
Operations
   Running Aero photography Missions    ◦ Manned Aircraft    ◦ Unmanned AGPlane   Post-sale training    ◦ Training for U...
Image Processing
   Real Time    ◦   Monitoring from Theater of Operations    ◦   Search and Identification    ◦   Critical Analysis    ◦ ...
◦ Tactical support◦ Detection and identification ofpotential targets◦ Manned aircraft or UAVs◦ Data link in real time with...
   Computational analysis of aerial images:    ◦   Culture Stress    ◦   Culture Quantification, Biomass    ◦   Paralleli...
Environment
   Use of aero-photographs for Identification and Registration:    ◦ Determination of APP area (Permanent Protection Area...
Distribution
Tiriba           AerialFamily          Targets         VS-XARARAFamily
   Real-time video   Real-time telemetry   In flight Control and Intervention   Directional antenna with autotracking
◦   Engine 40cc, 2T, 5HP, AVGAS◦   Wingspan: 3m◦   Maximum Takeoff Weight: 20kg◦   Engine 40cc, 2T, 5HP, AVGAS◦   Payload:...
◦ Engine 40cc, 2T, 5HP, AVGAS◦ Maximum Takeoff Weight: 20kg◦ Payload: 4kg◦ Flight autonomy: 4h◦ Cruising speed: 100km/h◦ M...
◦   Electric aircraft for autonomous reconnaissance and surveillance◦   Super lightweight: 3kg◦   NiCd 12V, 1.8 AH battery...
◦   Empty Weight: 35 Kg◦   Payload: 45 Kg◦   Engine: DLE-222, 2 21.5Hp s each◦   Stall Speed: 72 mph◦   Cruise speed (8,00...
   100% Brazilian autopilot   Mission Control   Flight Control    ◦ 4 processors (high reliability)    ◦ Inertial unit ...
 Georeferenced images gathering ◦ High Resolution Images    Position (latitude/longitude) ◦ Easy to use    Auto/manual ...
Decision   Onboard Computer                                                 Making    ◦ Mission Control    ◦ Optical sens...
   Multispectral cameras applied on:    ◦ Water Stress    ◦ Analysis of irrigation problems    ◦ Analysis of pests:      ...
contato@agx.com.br+55 (16) 3372-8185São Carlos/SP/Brasil
Agx technology
Agx technology
Agx technology
Agx technology
Agx technology
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Agx technology

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Presentation of AGX Technology products and services.

São Carlos/SP/Brazil

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Agx technology

  1. 1. 2010/2011
  2. 2.  Mission ◦ Bring to bear complex technological solutions, promoting development and operation of intelligent autonomous systems for environmental, agricultural and space applications. Vision ◦ To be market leader and reference in aerial imaging, distribution and operation of unmanned systems and high value computational intelligence.
  3. 3.  UAV: Unmanned Aerial Vehicle ◦ “It is an aerial vehicle, with no operator on board, with fixed or rotational wings, self propelled, that can be remotely controlled or have autonomous navigation.” Brazilian army glossary Advantages • Preservation of Lives • Operating Costs Reduction • Missions Repeatability • Environmentally friendly
  4. 4. Environment Image Production Processing OperationDevelopment Distribution
  5. 5. Development
  6. 6.  Aircrafts ◦ Aircraft Projects ◦ Sensors Projects Embedded Systems ◦ Autopilots ◦ Controlling Systems ◦ Inertial Systems Software ◦ Image Analysis ◦ Information Management ◦ Computational Intelligence
  7. 7. Production
  8. 8.  Aircrafts ◦ Production in Franca/São Paulo ◦ Composite Materials Specialists  Carbon Fiber  Fiberglass  Special Foams High Complexity Electronics ◦ High Reliability Electronic Circuits Manufacturing ◦ Multi-layer Systems Development ◦ 100% national technology
  9. 9. Operations
  10. 10.  Running Aero photography Missions ◦ Manned Aircraft ◦ Unmanned AGPlane Post-sale training ◦ Training for UAVs operation ◦ Training for Sensor operation Aircraft maintenance ◦ Integrations and repairs ◦ Parts supply
  11. 11. Image Processing
  12. 12.  Real Time ◦ Monitoring from Theater of Operations ◦ Search and Identification ◦ Critical Analysis ◦ High Definition Images Post processing ◦ Photographic mosaics ◦ Thematic Maps ◦ Quantification and Measurement ◦ Vegetative stress ◦ NDVI (Normalized Difference Vegetation Index) (with NIR)
  13. 13. ◦ Tactical support◦ Detection and identification ofpotential targets◦ Manned aircraft or UAVs◦ Data link in real time with average reach of 20 km◦ Tracking targets on land or water
  14. 14.  Computational analysis of aerial images: ◦ Culture Stress ◦ Culture Quantification, Biomass ◦ Parallelism, usage of soil ◦ Plants Counting, Development of culture ◦ Quantification of failures on planting and Planted Area ◦ Exposed soil, erosion, deforestation and desertification ◦ Pests, Changes, Nutritional Deficiencies ◦ Water Footprint  Main Cultures: ◦ Sugar-cane ◦ Soybean ◦ Corn ◦ Wood & forest ◦ Citrus ◦ Cotton
  15. 15. Environment
  16. 16.  Use of aero-photographs for Identification and Registration: ◦ Determination of APP area (Permanent Protection Area) ◦ Analysis and management of Erosive processes ◦ Land cover and usage ◦ Quantification of vegetation and Deforestation ◦ Classification of species and Evolutionary Analysis of Reforestation ◦ Identification of risk areas (Civil Defense)
  17. 17. Distribution
  18. 18. Tiriba AerialFamily Targets VS-XARARAFamily
  19. 19.  Real-time video Real-time telemetry In flight Control and Intervention Directional antenna with autotracking
  20. 20. ◦ Engine 40cc, 2T, 5HP, AVGAS◦ Wingspan: 3m◦ Maximum Takeoff Weight: 20kg◦ Engine 40cc, 2T, 5HP, AVGAS◦ Payload: 4kg◦ Flight autonomy: 4h◦ Cruising speed: 100km/h◦ Data link in real time with average reach of 10 km◦ Remotely piloted or autonomous system◦ Emergency parachute system◦ Power generator◦ Mobile Control Station◦ Automatic Takeoff (on vehicle)
  21. 21. ◦ Engine 40cc, 2T, 5HP, AVGAS◦ Maximum Takeoff Weight: 20kg◦ Payload: 4kg◦ Flight autonomy: 4h◦ Cruising speed: 100km/h◦ Maximum speed: 180km/h◦ System remotely piloted (or autonomousin version HX)◦ Ballistic emergency parachutesystem in version HX◦ Power generator in version HX◦ Mobile Control Station◦ Automatic Takeoff (vehicle, rocket orcatapult)
  22. 22. ◦ Electric aircraft for autonomous reconnaissance and surveillance◦ Super lightweight: 3kg◦ NiCd 12V, 1.8 AH battery◦ Wide range of payloads◦ Flight Autonomy: 20m to 45m◦ Cruising speed: 60 to 100km/h◦ Autonomous or operated system◦ Compact Mobile Control Station◦ Takeoff by manual release
  23. 23. ◦ Empty Weight: 35 Kg◦ Payload: 45 Kg◦ Engine: DLE-222, 2 21.5Hp s each◦ Stall Speed: 72 mph◦ Cruise speed (8,000 feet): 200 km/h◦ Autonomy: 30.5 Hours◦ Flight Range: 6,100 km◦ Rate of Climb: 2,000 feet/min◦ Synthetic aperture radar (SAR)  Digital terrain models (P and X band)
  24. 24.  100% Brazilian autopilot Mission Control Flight Control ◦ 4 processors (high reliability) ◦ Inertial unit (roll & pitch) ◦ Barometric unit (airspeed, altitude and climb) ◦ GPS (geographic position and velocity relative to ground) ◦ Optical Stabilizer (skyline) (optional)
  25. 25.  Georeferenced images gathering ◦ High Resolution Images  Position (latitude/longitude) ◦ Easy to use  Auto/manual shooting
  26. 26. Decision Onboard Computer Making ◦ Mission Control ◦ Optical sensor trigger Synchronization Optical sensor AF/AE SLR up-to 12 Mega Pixels GPS datalogger Software for mosaicking and Images Downloadgeoreferencing Mission Running Planning
  27. 27.  Multispectral cameras applied on: ◦ Water Stress ◦ Analysis of irrigation problems ◦ Analysis of pests:  Viniculture  Citrus  Olive  Fruit culture
  28. 28. contato@agx.com.br+55 (16) 3372-8185São Carlos/SP/Brasil

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