Pars is an Aerial robot which is designed and made for saving human
lives. The first purpose of building the robot is the relief of people
drowning near coastlines. By developing its applications, it can be
used in ships and off shore reliefs. It can also be used in other
applications such as monitoring of marine and off shore structures,
recording films and pictures from dangerous path ways for rescue
missions, precise positioning and monitoring of off shore disasters
and aid in firefighting.
The designed robot uses new technologies for guidance and navigation.
Some of the technologies used are artificial intelligence, sound and
image processing, autopilot search and rescue and a wide combination
of sensor technologies. The robot is very simple and also very
applicable and can play a significant role in saving the injured
people.
The Savior Aerial robot is designed in a way that it can quickly move
towards drowning people by user guidance and activates its savior
system. This system releases life tubes for the drowning ones.
Considering that many people drown all over the world every year, this
robot can decrease the duration of rescue operations and save more
lives.
Applied Innovations in This Method:
1- The robot has the Ability to save more than one life simultaneously
at a mission; for an example, if several people were sinking
simultaneously at the coast, this robot could send life tubes to each
one very quickly.
2- The robot is waterproof and it can land on the sea surface. When
the robot faces an accident or in low battery situations it lands on
sea, to not see more damage or sink.
3- So far 3 pads have been considered for the robot that gives it the
ability to save 3 lives in one operation; by using chemical materials
the pads can be increased to more than 15 in number.
4- The robot uses artificial intelligence for accurate analysis of the
condition it’s in.
5- The robot is designed with a FLIR heating camera for recognizing
the injured ones at night and also uses LED lightening to be
recognized at night and activates its intelligence system when people
shout for help.
6- It is simply installed and applied in different parts related to
marine issues, from coastline to installation in the ships and oil
platforms.
7- The robot can track its path by GPS positioning and at the end of
its mission it can come back home without the need of user guidance.
After returning, it lands on its platform and starts charging its
batteries.
Aim groups and customers:
1- Relief & saving Organizations, as like Red Cross and Red Crescent
2- Lifeguard Federations
3- Marine security companies
4- Oil and gas industries for investigation of marine structures
5- Oil and gas industries for marine relief missions
6- Coastline police
7- Ship owners and ship makers
8- Firefighting organizations
9- National Lifeguard Services
10- Crisis management organizations
Video
Voting
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ABOUT THE ENTRANT
- Name:Amin Rigi
- Type of entry:teamTeam members:Amin Rigi, Saeid Talebi, Masoud Noroozi, Hossein Saffari, Amin
Mirakhorli, Majid Saeidi - Profession:
- Number of times previously entering contest:2
- Amin's hobbies and activities:Founder and director of RTS Lab (2009-2013).
- Amin belongs to these online communities:website:www.rtsideas.com Email:
This email address is being protected from spambots. You need JavaScript enabled to view it. - Amin is inspired by:Amin Rigi is the founder and director of RTS Lab and has designed and developed several robots that have mainly been Aerial and marine robots. He is well known for his research in the field of rescue robots, he believes robots should be used for the better of mankind and not as killer devices.
- Patent status:none