ANTARIKSH_PROJECT2_SENDING_INDIANS_IN_SPACE
geniusbutnotaniitian
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Jun 25, 2024
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About This Presentation
About space exploration, and how India needs an indigenous astronaut training program to rule the vastness of cosmos
Slide Content
– EXPLORING THE COSMOS —
OUR VISION
Our vision is to make India capable, competent and pioneer in space
exploration
By training astronauts and technicians in India, with
state of the art technology
Our success in unmanned missions is extra-ordinary,
and we believe in the future,India will be a leader in
manned-missions as well, if we start laying the
Foundation right now.
Antariksh aims to be a haven for the upcoming space
explorers and wishes to inculcate an amazement and wonder,
regarding the heavens above.
Regarding the ANTRIKSH
Our vision is to make India capable, competent and pioneer in space
exploration
By training astronauts and technicians in India, with
state of the art technology
Our success in unmanned missions is extra-ordinary,
and we believe in the future,India will be a leader in
manned-missions as well, if we start laying the
Foundation right now.
Antariksh aims to be a haven for the upcoming space
explorers and wishes to inculcate an amazement and wonder,
regarding the heavens above.
Regarding the ANTRIKSH
04
01 02
03
Ushering a new
generation of space
explorers
Training the psyche of
astronauts with life-like
simulations
The future of India and
Antariksh.
Training the muscles of
astronauts for zero
gravity
OVERVIEW
EXECUTION
SOFTWARE
I,WONDER
HARDWARE
01 02
03
Ushering a new
generation of space
explorers
Training the psyche of
astronauts with life-like
simulations
The future of India and
Antariksh.
Training the muscles of
astronauts for zero
gravity
OVERVIEW
EXECUTION
SOFTWARE
I,WONDER
HARDWARE
01
A healthy mind can only reside in a
healthy body, and we wish to
provide just that
HARDWARE
A healthy mind can only reside in a
healthy body, and we wish to
provide just that
HARDWARE
ENGINEERING TOOLS
VOMIT COMET
OUR METHODS
SHUTTLE MOTION
SIMULATOR
NEUTRAL BUOYANCY LAB
THERMAL VACUUM
CHAMBERS
VOMIT COMET
OUR METHODS
SHUTTLE MOTION
SIMULATOR
NEUTRAL BUOYANCY LAB
THERMAL VACUUM
CHAMBERS
ENGINEERING TOOLS
AEROSPACE BLOCKSET
AEROSPACE TOOLBOX
AEROSPACE BLOCKSET
ICDS(INTERACTIVE
CONTROL & DYNAMIC
SIMULATOR
Aerospace Blockset™ software extends Simulink® with blocks for modeling and
simulating aircraft, spacecraft, rocket, and PROPULSION SYSTEMS, as well as
unmanned airborne vehicles. It also includes MODELLING EQUATIONS of motion and
for navigation.
Aerospace Toolbox provides reference standards, environmental models, and
AERODYNAMIC COEFFICIENT importing for performing advanced aerospace analysis to
develop and evaluate your designs.These options let you visualize flight data in a
three-dimensional (3-D) environment and RECONSTRUCT BEHAVIORAL SLIDES
Interactive Space Shuttle dynamics and control simulation for analyzing
rendezvous, proximity operations, and DOCKING WITH SPACE STATION
IPT provides a comprehensive set of reference-standard algorithms and
graphical tools for image processing, analysis, visualization, and algorithm
development. You can perform IMAGE ENHANCEMENT, image De-blurring,
feature detection, noise reduction etc.
AEROSPACE BLOCKSET
AEROSPACE TOOLBOX
AEROSPACE BLOCKSET
ICDS(INTERACTIVE
CONTROL & DYNAMIC
SIMULATOR
Aerospace Blockset™ software extends Simulink® with blocks for modeling and
simulating aircraft, spacecraft, rocket, and PROPULSION SYSTEMS, as well as
unmanned airborne vehicles. It also includes MODELLING EQUATIONS of motion and
for navigation.
Aerospace Toolbox provides reference standards, environmental models, and
AERODYNAMIC COEFFICIENT importing for performing advanced aerospace analysis to
develop and evaluate your designs.These options let you visualize flight data in a
three-dimensional (3-D) environment and RECONSTRUCT BEHAVIORAL SLIDES
Interactive Space Shuttle dynamics and control simulation for analyzing
rendezvous, proximity operations, and DOCKING WITH SPACE STATION
IPT provides a comprehensive set of reference-standard algorithms and
graphical tools for image processing, analysis, visualization, and algorithm
development. You can perform IMAGE ENHANCEMENT, image De-blurring,
feature detection, noise reduction etc.
THERMAL VACUUM CHAMBER
A Thermal Vacuum Chamber is a big CYLINDRICAL CHAMBER
with a height of 120 ft (36.6 m) with centrifuge capability up
to 30 G’s for a payload of 2.5 tons. It is able to produce HIGH
LEVEL SOUND emulating those of launching stage up to 150
decibels. It is able to reach temperatures as low as -434.5 ◦F
(14 ◦K) [3].
Once the hatches are sealed, its pumps are able to create a
VACUUM BILLIONS TIMES LOWER than sea level atmospheric
pressure, such a low pressure can be held during several
weeks during test runs. Its walls are pumped with −190oC
liquid to cool the chamber near deep space temperatures .
Used by major space organisations of the west so as to
create a frictionless surrounding for the astronomers .
A Thermal Vacuum Chamber is a big CYLINDRICAL CHAMBER
with a height of 120 ft (36.6 m) with centrifuge capability up
to 30 G’s for a payload of 2.5 tons. It is able to produce HIGH
LEVEL SOUND emulating those of launching stage up to 150
decibels. It is able to reach temperatures as low as -434.5 ◦F
(14 ◦K) [3].
Once the hatches are sealed, its pumps are able to create a
VACUUM BILLIONS TIMES LOWER than sea level atmospheric
pressure, such a low pressure can be held during several
weeks during test runs. Its walls are pumped with −190oC
liquid to cool the chamber near deep space temperatures .
Used by major space organisations of the west so as to
create a frictionless surrounding for the astronomers .
SHUTTLE MOTION SIMULATOR & FFT
It consists on a 6 DOF HYDRAULIC-POWERED moving platform
system with an extra extended pitch axis for motion cueing.
On the moving platform there is a cabin that reproduce the
space shuttle forward part of the flight deck (cockpit)
having monitors instead of windows for simulation of the
outside view . The simulation software include all mission
steps and many pre-programmed malfunctions.
It is designed to response to cockpit controls and
interactions of the systems. It was able to communicate to
other simulation or actual control stages for extended
simulations.
The FULL FUSELAGE TRAINER (FFT) is a full-scale mockup of the
space shuttle orbiter, minus the wings. It is used for general
familiarization training, emergency egress training, and
training for certain functions such as galley operation,
payload bay systems, and lighting. It also served as a TEST
BED FOR UPGRADES TO THE SHUTTLE FLEET.
It consists on a 6 DOF HYDRAULIC-POWERED moving platform
system with an extra extended pitch axis for motion cueing.
On the moving platform there is a cabin that reproduce the
space shuttle forward part of the flight deck (cockpit)
having monitors instead of windows for simulation of the
outside view . The simulation software include all mission
steps and many pre-programmed malfunctions.
It is designed to response to cockpit controls and
interactions of the systems. It was able to communicate to
other simulation or actual control stages for extended
simulations.
The FULL FUSELAGE TRAINER (FFT) is a full-scale mockup of the
space shuttle orbiter, minus the wings. It is used for general
familiarization training, emergency egress training, and
training for certain functions such as galley operation,
payload bay systems, and lighting. It also served as a TEST
BED FOR UPGRADES TO THE SHUTTLE FLEET.
VOMIT COMET & VMS
The VMS have a HIGH FIDELITY REAL TIME reproduction of dynamics and
conditions of actual spacecraft including critical stages as landing or
approach. It has a vertical motion range of 60 ft (18.3 m) and horizontal
motion of 40 ft ( 12.2 m)
In the given figure On these horizontal and vertical paths it is moved
an entire 6 DOF motion simulator with an identical reproduction of a
cockpit of the under test spacecraft.
Can you imagine going to your school or office and floating in air
along with your desks, chairs and pencils? Well that's what the
astronauts experience when they take a flight on the KC-135 aircraft,
affectionately known as the "VOMIT COMET" Astronauts get a unique
perspective of their environment during a zero gravity flight.
During a typical mission of 2 to 3 hours the aircraft will fly 30 to 40
parabolic arcs. During each parabolic arc there are 20 to 25 seconds
of "g" gravity when the astronauts will experience how it feels to be in
outer space.
The VMS have a HIGH FIDELITY REAL TIME reproduction of dynamics and
conditions of actual spacecraft including critical stages as landing or
approach. It has a vertical motion range of 60 ft (18.3 m) and horizontal
motion of 40 ft ( 12.2 m)
In the given figure On these horizontal and vertical paths it is moved
an entire 6 DOF motion simulator with an identical reproduction of a
cockpit of the under test spacecraft.
Can you imagine going to your school or office and floating in air
along with your desks, chairs and pencils? Well that's what the
astronauts experience when they take a flight on the KC-135 aircraft,
affectionately known as the "VOMIT COMET" Astronauts get a unique
perspective of their environment during a zero gravity flight.
During a typical mission of 2 to 3 hours the aircraft will fly 30 to 40
parabolic arcs. During each parabolic arc there are 20 to 25 seconds
of "g" gravity when the astronauts will experience how it feels to be in
outer space.
NEUTRAL BUOYANCY LAB
To practice extravehicular activities, or space walks, astronauts go
underwater. The astronauts use the Neutral Buoyancy Laboratory
(NBL), a huge "swimming pool."
The NBL pool is 62 meters (202 feet) in length, 31 meters (102
feet) in width and 12 meters (40 feet) in depth. The pool holds
22.7 million liters (6.2 million gallons) of water.
Astronauts float in the water while they practice on full-sized
models of space vehicles. They may spend up to seven hours at a
time underwater astronauts may perform simulated EVA TASKS in
preparation for upcoming missions.
Trainees wear suits designed to provide NEUTRAL BUOYANCY to
simulate the microgravity that astronauts experience during
spaceflight. The facility contains a HYPERBARIC chamber for treating
any dive related emergencies, as well as an altitude chamber to
simulate physiological effects of flying.
To practice extravehicular activities, or space walks, astronauts go
underwater. The astronauts use the Neutral Buoyancy Laboratory
(NBL), a huge "swimming pool."
The NBL pool is 62 meters (202 feet) in length, 31 meters (102
feet) in width and 12 meters (40 feet) in depth. The pool holds
22.7 million liters (6.2 million gallons) of water.
Astronauts float in the water while they practice on full-sized
models of space vehicles. They may spend up to seven hours at a
time underwater astronauts may perform simulated EVA TASKS in
preparation for upcoming missions.
Trainees wear suits designed to provide NEUTRAL BUOYANCY to
simulate the microgravity that astronauts experience during
spaceflight. The facility contains a HYPERBARIC chamber for treating
any dive related emergencies, as well as an altitude chamber to
simulate physiological effects of flying.
02
Training minds at 100km.
SOFTWARE
Training minds at 100km.
SOFTWARE
We would like to present our website in front of the
esteemed judges ….
esteemed judges ….
VR CONTROL OF ROBOTS
Pilote an investigation from ESA (European Space Agency) and France’s
National Center for Space Studies (CNES), tests remote operation of
robotic arms and space vehicles using VR with interfaces based on
haptics, or simulated touch and motion.
Pilote compares existing and new technologies, including those
recently developed for teleoperation and others used to pilot the
Canadarm2 and Soyuz spacecraft. The investigation also compares
astronaut performance on the ground and during long-duration space
missions. Designs from Earth-based testing use ergonomic principles
that do not fit microgravity conditions, which is why testing is
performed in space.
Pilote an investigation from ESA (European Space Agency) and France’s
National Center for Space Studies (CNES), tests remote operation of
robotic arms and space vehicles using VR with interfaces based on
haptics, or simulated touch and motion.
Pilote compares existing and new technologies, including those
recently developed for teleoperation and others used to pilot the
Canadarm2 and Soyuz spacecraft. The investigation also compares
astronaut performance on the ground and during long-duration space
missions. Designs from Earth-based testing use ergonomic principles
that do not fit microgravity conditions, which is why testing is
performed in space.
T2 AR TEST
These inspection and maintenance tasks often require assistance from
Earth-based Mission Control; today, they are performed using procedures
written in electronic documents, often with pictures or schematics to describe
both correct and incorrect configuration of hardware. Augmented Reality
applications run on devices like tablets or headsets. Applications running on
these devices interpret camera images, using an internal model (e.g. identifying
device components and orientation). These applications also can interpret
what the crew members are presently doing, also using an internal model (e.g.
tracking procedure step ordering and step completion status).
These applications help crew members by acting as a ‘smart assistant’ to the
crew member performing these activities, suggesting the correct next step in
their inspection and maintenance activities, by overlaying the user’s view of a
scene with animations and text. Crew members operate these applications
using voice and gestures, but image recognition and animation or overlay of
the current scene are performed automatically. Crew members perform
inspection and maintenance activities on the Combined Operational Load
Bearing External Resistance Treadmill (COLBERT) using applications developed for
the Sidekick: Investigating Immersive Visualization Capabilities (Sidekick) .
These inspection and maintenance tasks often require assistance from
Earth-based Mission Control; today, they are performed using procedures
written in electronic documents, often with pictures or schematics to describe
both correct and incorrect configuration of hardware. Augmented Reality
applications run on devices like tablets or headsets. Applications running on
these devices interpret camera images, using an internal model (e.g. identifying
device components and orientation). These applications also can interpret
what the crew members are presently doing, also using an internal model (e.g.
tracking procedure step ordering and step completion status).
These applications help crew members by acting as a ‘smart assistant’ to the
crew member performing these activities, suggesting the correct next step in
their inspection and maintenance activities, by overlaying the user’s view of a
scene with animations and text. Crew members operate these applications
using voice and gestures, but image recognition and animation or overlay of
the current scene are performed automatically. Crew members perform
inspection and maintenance activities on the Combined Operational Load
Bearing External Resistance Treadmill (COLBERT) using applications developed for
the Sidekick: Investigating Immersive Visualization Capabilities (Sidekick) .
SAFER TRAINING SYSTEM
In order to train astronauts to use SAFER, the VR Lab
maintains and deploys a hardware-in-the-loop real-time
simulation using Trick, a NASA custom simulation
development framework. The SAFER Trick simulation
provides and controls all the physics, dynamics, sensor
data, avionics, power, and thruster logic models. This
system uses a physical flight-like SAFER Hand Controller
Module (HCM) and avionics system. The HCM is physically
connected to the avionics hardware, which is then
connected to the simulation machine that reads and
processes the data through the Trick simulation.
The SAFER system has been part of astronaut training
since before 1994, when SAFER was first deployed
during STS-64 in an untethered test by astronaut Mark
Lee. [4] SAFER is a “jetpack” backpack attached to the
Portable Life Support System (PLSS) on the back of the Extra
Vehicular
In order to train astronauts to use SAFER, the VR Lab
maintains and deploys a hardware-in-the-loop real-time
simulation using Trick, a NASA custom simulation
development framework. The SAFER Trick simulation
provides and controls all the physics, dynamics, sensor
data, avionics, power, and thruster logic models. This
system uses a physical flight-like SAFER Hand Controller
Module (HCM) and avionics system. The HCM is physically
connected to the avionics hardware, which is then
connected to the simulation machine that reads and
processes the data through the Trick simulation.
The SAFER system has been part of astronaut training
since before 1994, when SAFER was first deployed
during STS-64 in an untethered test by astronaut Mark
Lee. [4] SAFER is a “jetpack” backpack attached to the
Portable Life Support System (PLSS) on the back of the Extra
Vehicular
03
EXECUTION
“The difference between a dream
and revolution is EXECUTION”
EXECUTION
“The difference between a dream
and revolution is EXECUTION”
SOME PATHS THAT WE CAN TAKE
CONFERENCE
& EVENTS
SUPPLY SERVICES
Attend space-related
conferences and events
where you can network
with ISRO representatives
and explore partnership
options.
Provide goods or services that
support ISRO's missions, such
as manufacturing components,
offering ground support
services, or supplying materials.
TECH. COLLABS
Seek technology transfer
agreements, where ISRO
shares its expertise and
technology with the private
company for mutual benefit.
JOINT VENTURES
Collaborate with ISRO to
establish joint ventures or
consortiums for specific
projects or missions.
CONFERENCE
& EVENTS
SUPPLY SERVICES
Attend space-related
conferences and events
where you can network
with ISRO representatives
and explore partnership
options.
Provide goods or services that
support ISRO's missions, such
as manufacturing components,
offering ground support
services, or supplying materials.
TECH. COLLABS
Seek technology transfer
agreements, where ISRO
shares its expertise and
technology with the private
company for mutual benefit.
JOINT VENTURES
Collaborate with ISRO to
establish joint ventures or
consortiums for specific
projects or missions.
GOVERNMENT AND SPACE
ATMANIRBHAR
BHARAT
TECHNOLOGY
TRANSFER AND
LICENSING
MAKE IN INDIA
SPACE INDUSTRY
PARKS
ATMANIRBHAR
BHARAT
TECHNOLOGY
TRANSFER AND
LICENSING
MAKE IN INDIA
SPACE INDUSTRY
PARKS
04
Training minds at 100km.
I, WONDER
Training minds at 100km.
I, WONDER
USHERING A NEW COSMIC AGE
CREATE INFORMATIVE
CONTENT
COLLABORATION WITH
SPACE ORGANIZATIONS
CAREER GUIDANCE
SEMINAR
VIRTUAL REALITY
EXPERIENCE
CREATE INFORMATIVE
CONTENT
COLLABORATION WITH
SPACE ORGANIZATIONS
CAREER GUIDANCE
SEMINAR
VIRTUAL REALITY
EXPERIENCE
A GLIMPSE OF POTENTIAL
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