Difference between revisions of "Deployment areas and challenges"
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==Group 1== | ==Group 1== | ||
| − | What are the main civil applications? | + | ===What are the main civil applications?=== |
* survaillance | * survaillance | ||
* broadcasting | * broadcasting | ||
| Line 11: | Line 11: | ||
* drone follow me every day | * drone follow me every day | ||
| − | 1.5 UAVs | + | 1.5 UAVs: |
* heterogenous types of devices. car&uav. spider&uav. | * heterogenous types of devices. car&uav. spider&uav. | ||
* helping steering. | * helping steering. | ||
| Line 17: | Line 17: | ||
| − | multi UAV | + | multi UAV: |
* distributed view | * distributed view | ||
* different views of a site | * different views of a site | ||
| Line 27: | Line 27: | ||
* access area which is not accessable otherwise | * access area which is not accessable otherwise | ||
| − | + | ===Very few existing applications?=== | |
| − | Very few existing applications? | ||
* survaillance | * survaillance | ||
* military use | * military use | ||
| Line 36: | Line 35: | ||
| − | What are the challenges in deploying an autonomous multi-UAV system in real-world? | + | ===What are the challenges in deploying an autonomous multi-UAV system in real-world?=== |
* reliability | * reliability | ||
* system complexity | * system complexity | ||
| Line 48: | Line 47: | ||
* reducing size reduces risks on fall outs | * reducing size reduces risks on fall outs | ||
| − | What can the researchers and engineers do to improve public perception on UAVs? | + | ===What can the researchers and engineers do to improve public perception on UAVs?=== |
* have systems ready when we need them - rescue and help situations. | * have systems ready when we need them - rescue and help situations. | ||
* PR use good wording, difficulty in communication | * PR use good wording, difficulty in communication | ||
| Line 54: | Line 53: | ||
* deliver before you communicate | * deliver before you communicate | ||
| − | * address public interests where is need: aid firefighters in wood fires (know wind changes), finding lost mountaineers, | + | * address public interests where is need: aid firefighters in wood fires (know wind changes), finding lost mountaineers, traffic survaillance. |
* Arts | * Arts | ||
| Line 63: | Line 62: | ||
==Group 2== | ==Group 2== | ||
| − | + | === Main civil application === | |
| + | * '''Features:''' time critical, large scale, dynamic, 'time-synchronous'-observation application | ||
| + | * City maps | ||
| + | * Disaster management | ||
| + | * Reconnaissance | ||
| + | * 3D reconstruction | ||
| + | * Surveillance | ||
| + | * Search-and-rescue | ||
| + | * Structural health monitoring | ||
| + | * Filming with multiple flying cameras and different payload sensors | ||
| + | * Transportation of medicine | ||
| + | * Infrastructure setup networks | ||
| + | |||
| + | |||
| + | === Existing case studies, application === | ||
| + | * Disaster management | ||
| + | * Drone adventures | ||
| + | * Matternet | ||
| + | * Area logistics | ||
| + | * Google & WWF | ||
| + | * several EU projects: Arcas - cooperative aerial assembly | ||
| + | * Global Hawk from NASA to chase tornado | ||
| + | |||
| + | |||
| + | === Challenges in deployment in real-world === | ||
| + | * Coordinated sensing | ||
| + | * Coordinated planning | ||
| + | * Time synchronization | ||
| + | * Environment conditions | ||
| + | * Establishing a reliable communication system | ||
| + | * Business case | ||
| + | * Substantial amount of autonomy | ||
| + | * Safety | ||
| + | * Power management | ||
| + | * Sense-and-avoid | ||
| + | |||
| + | |||
| + | === What can researchers do to improve public perception of UAVs? === | ||
| + | * Raise awareness: what are the real benefits of the systems? | ||
| + | * Naming it differently - not "drone" but "flying robot" (= it is a system serving you) | ||
| + | * Positive press coverage | ||
| + | * Public awareness events | ||
| + | * Applications for society (e.g. Haiti) | ||
| + | * Ars electronica demonstration | ||
==Group 3== | ==Group 3== | ||
| + | |||
| + | Ashutosh Natraj, Alexander Almer, Christian Briese, Hariom Dhungana, Torsten Andre, Hermann de Meer, Wilfried Elmenreich | ||
===What are the main non-military applications?=== | ===What are the main non-military applications?=== | ||
| Line 99: | Line 143: | ||
* power (management, batteries, efficiency, recharging) | * power (management, batteries, efficiency, recharging) | ||
* legal issues, licensing | * legal issues, licensing | ||
| − | ** | + | ** e.g., [http://www.parlament.gv.at/PAKT/VHG/XXIV/I/I_02299/index.shtml Luftfahrtgesetz Österreich, changed June 2013] |
| + | ** [http://bfw.ac.at/050/pdf/FORTNER_2013AAI_RechtlicherRahmen.pdf AAI-UAS WG: Rechtliche Rahmenbedingungen von UAVs] | ||
* social acceptance | * social acceptance | ||
* privacy | * privacy | ||
| Line 109: | Line 154: | ||
* publishing - talk about it | * publishing - talk about it | ||
** public awareness for civil UAV applications | ** public awareness for civil UAV applications | ||
| − | ** media coverage on non-horror stories | + | ** [http://www.nature.com/news/drones-in-science-fly-and-bring-me-data-1.13161 Drones in Science] |
| + | ** more media coverage on non-horror stories | ||
** school competitions | ** school competitions | ||
* drones in private/civil use | * drones in private/civil use | ||
| Line 129: | Line 175: | ||
[[File:google-quadcopter.jpg]] | [[File:google-quadcopter.jpg]] | ||
| + | |||
| + | [[File:google-flyingrobot.jpg]] | ||
==Group 4== | ==Group 4== | ||
Latest revision as of 15:52, 10 July 2013
Group 1
What are the main civil applications?
- survaillance
- broadcasting
- inspection
- agricultural and habitat monitoring
- documentation
- incident sites for insurances
- complement remote sensing
- drone follow me every day
1.5 UAVs:
- heterogenous types of devices. car&uav. spider&uav.
- helping steering.
- combine indoor and outdoor exploration
multi UAV:
- distributed view
- different views of a site
- weather measurements / weather forecast / local and global view
- different grid size measurements
- basic infrastructure distribute device
- drop devices somewhere
- cannot be accessed, hazardous environments, leakage of gas.
- access area which is not accessable otherwise
Very few existing applications?
- survaillance
- military use
- fixed wing photogrametry
- MULTI UAV: Art installations: ARS electronica (100 UAVs), like a firework, 3D screen
- parallel operation from sky to earth ( rope from cranes to lift objects)
What are the challenges in deploying an autonomous multi-UAV system in real-world?
- reliability
- system complexity
- flying close, positioning
- spacial and temporal callibration
- control via visual inputs only
- legal issues
- scalability in reality (large number of devices)
- how to know the local situation. how can all the others know the situation
- aerodynamics on small dynamics. playload is the same but devices become smaller
- reducing size reduces risks on fall outs
What can the researchers and engineers do to improve public perception on UAVs?
- have systems ready when we need them - rescue and help situations.
- PR use good wording, difficulty in communication
- infra-camera used to detact small deers in the gras when harvesting
- deliver before you communicate
- address public interests where is need: aid firefighters in wood fires (know wind changes), finding lost mountaineers, traffic survaillance.
- Arts
- Multiple views for Movies
- interactive 3D movies, viewer can choose view point in movie
- multi-actor within gaming?
Group 2
Main civil application
- Features: time critical, large scale, dynamic, 'time-synchronous'-observation application
- City maps
- Disaster management
- Reconnaissance
- 3D reconstruction
- Surveillance
- Search-and-rescue
- Structural health monitoring
- Filming with multiple flying cameras and different payload sensors
- Transportation of medicine
- Infrastructure setup networks
Existing case studies, application
- Disaster management
- Drone adventures
- Matternet
- Area logistics
- Google & WWF
- several EU projects: Arcas - cooperative aerial assembly
- Global Hawk from NASA to chase tornado
Challenges in deployment in real-world
- Coordinated sensing
- Coordinated planning
- Time synchronization
- Environment conditions
- Establishing a reliable communication system
- Business case
- Substantial amount of autonomy
- Safety
- Power management
- Sense-and-avoid
What can researchers do to improve public perception of UAVs?
- Raise awareness: what are the real benefits of the systems?
- Naming it differently - not "drone" but "flying robot" (= it is a system serving you)
- Positive press coverage
- Public awareness events
- Applications for society (e.g. Haiti)
- Ars electronica demonstration
Group 3
Ashutosh Natraj, Alexander Almer, Christian Briese, Hariom Dhungana, Torsten Andre, Hermann de Meer, Wilfried Elmenreich
What are the main non-military applications?
- inspection (e.g., photovoltaic systems, wind turbines, rural areas)
- search/search and rescue operations
- mapping (e.g., 3D reconstruction of cities, construction sites)
- documentation (e.g., archeaological sites, construction work)
- monitoring (e.g., forest fire, wildlife, animal observation)
- video and photography
- surveillance
- toy business
- transportation of goods
- aspects
- indoor/outdoor
- single/multi UAVs
- static/dynamic applications
Existing case studies, applications
- Skyeye environmental monitoring
- Sensefly animal observation, disaster management
- ddp energy Thermography inspection of solar modules
- Matternet Transportation using a network of UAVs
- Metropolitan Manila Development Authority (MMDA) drones to monitor traffic
What are the challenges in deploying an autonomous multi-UAV system in real-world
- availablity of stable, reliable UAVs
- communication
- synchronization, proper real-time operating system for sensors, clock synchronization, low-jitter communication
- power (management, batteries, efficiency, recharging)
- legal issues, licensing
- social acceptance
- privacy
- safety
- security (theft of drones, manipulation, recovery of lost drones)
What can the researchers and engineers do to improve public perception of UAVs
- publishing - talk about it
- public awareness for civil UAV applications
- Drones in Science
- more media coverage on non-horror stories
- school competitions
- drones in private/civil use
- toys (high level)
- household applications (e.g., rooftop inspection)
- rural area application (sheep counting, sheparding)
- develop methods which preserve privacy
- keep actual images onboard and delete them after data extraction
- see Privacy and Security in Video Surveillance
- form interest group
Example: Image results from Google for keywords drone, uav, mav, quadcopter:
