G+1 construction, capable
💡
Cement extruder and mixer are readily available.
🔥
cnc machine hardware is also readily available.
❄️
main challenge is to repurpose cnc for large area.
Goal is to achive 1 ton cooling under 100 watts.
💡
no moisture is added in 2 stage evoprative cooling
🔥
it can achive dew point temperature, search
m-cycle cooling to explore more details
❄️
main challenge is to develop a aluminium foil heat exchanger.
Create a comprehensive event management system for large-scale functions including weddings, political events, and cultural celebrations.
🎉
Event management for marriage function
🎪
Organizing Exhibitions, fun fairs, pop-up markets,fashion Shows
📋
managing cultural events
Creating a disater management taskforce .
🎉
thinking for a complete dooms day.
🎪
knowing functioning of grounders
📋
fastest growable crop ecosystem
Develop Dolby Atmos-equivalent indigenous audio capability and innovative 360° rotational sound systems.
🔊
Create indigenous Dolby Atmos alternative
🎵
Develop 360° rotational sound for cultural events (Garba)
🎧
Advanced spatial audio technology
Build a comprehensive media platform covering news, entertainment, reels, and podcast capabilities.
📰
News aggregation and distribution
🎬
Short-form video (reels) platform
🎙️
Podcast hosting and streaming
Not Participate, but to create hackathon challenges.
🛡️
designing hackathon task
🔐
atleast 1 hackathon every month
⚔️
focus on android app ecosystem
Organising race for long flight hours.
🚁
Finding sponsors,build teams.
🎯
Combat-ready autonomous systems
punture pruff design for fuel.
🚁
a honey comb like structure.
organising solar car race(as in australia).
🚁
Creating teams,rules for challange.
📷
finding sponsors for teams, as it is resource intensive project .
🎯
Incorporating NATRAX Track in pithampur in around 500km challenge.
accounting software for very small shopkeeper.
🚁
I am suprised that my milk man is using an app to keep daily record
📷
there is lot of room for last mile user.
🎯
whatsapp integration may be done.
to manage logistic fleet.
🚁
For small truck load ,their is a gap in industry
📷
pincode code based, from and to system.
🎯
consignor can raise a request to fleet operater and negotiate at app.
no red light stoppage.
🚁
to develop a speed display system at 1000,500,250,125 meters between 15km/ph to 50 km/ph
📷
this will have a green running zone on road.
🎯
Dynamic speed guidence.
To attract international & Local tourists.
🚁
not to follow , but to lead in interior Design.
📷
incorporate 3-d printer approach.
🎯
Follow balitecture,a prominent developer in bali.
solor powered,small,AI enabled.
🚁
3-d printed, for fast build-up.
To help farmers, to harvest tall trees like coconut.
💬
a snake style arm that can climb to tall trees.
🔒
to achive fruit cutting functionality
solor powered,small,AI enabled.
🚁
3-d printed, for fast build-up.
🎯
seedling holder,digger, Bigger wheels.
Create indigenous AI and sub-systems.
💻
recognition of day-today 3-d objects
🐧
recognition of Spoken languages.
📱
Agriculture leaf, seed, weed, & disease recognition.
Create indigenous operating systems including Bharat BIOS, Linux equivalent, and Android alternative.
💻
Develop Bharat BIOS from ground up
🐧
Build Linux-equivalent OS
📱
Create Android alternative mobile OS
very slow vechile for daily waste collection.
🐧
a unique approach- Waste collection ,along with online delivery.
📱
initially line following system.
Create fully functional robot.
💬
utilizing existing tech. for rapid development
👥
later , shift to indigenious os
🔒
utilizing 3d printted parts,McKibben / Fiber Braided Pneumatic Muscle.
Develop a Meta (WhatsApp/Facebook) equivalent messaging and social platform with indigenous technology.
💬
End-to-end encrypted messaging
👥
Social networking features
🔒
Data sovereignty and privacy-focused
Quantum Key. Build next-generation data transmission applications and network infrastructure for secure, high-speed communication.
📡
High-speed data transmission protocols
🌐
Secure network infrastructure
⚡
Low-latency communication systems
Develop comprehensive systems for testing, exploiting, and solving vulnerabilities in defense systems.
🎯
Drone countermeasures (microwaves, net bullets)
🔍
Exploit detection and battlefield application
🛡️
Counter-vulnerability solutions
Design high-performance electric motors for EVs, drones, and jets with advanced capabilities.
⚙️
High-efficiency motors for electric vehicles
🚁
Drone propulsion systems
✈️
Electric jet propulsion research
Develop high density battery technologies for defense applications.
🔥
Combustible battery research
⛽
hydrogen/magnesium power paste
💪
High-energy density solutions
Create advanced fighter jet engines with 150+ kN thrust and associated technologies.
🚀
150+ kN thrust engine design
🌡️
Turbine blades for 1500°C temperatures
📡
Advanced radar and decoy systems
Develop crash landing airbag systems and variable-speed ejection seats for training aircraft.
🎈
Autonomous inflatable airbag systems
💺
Variable-speed ejection seats
🪂
Flyback capability for training scenarios
Create color-changing materials and Fresnel lens based camouflage systems for military applications.
🎨
Color-changing materials (white, brown, green, yellow)
🏕️
Fresnel lens based tents and canopies
🔬
yet research based ,but not to complex,rapid results required.
Develop advanced night vision capabilities including infrared, thermal, and high-ISO analog systems.
🌙
Infrared detection systems
🌡️
Thermal imaging technology
📸
ISO 100,000+ analog capabilities
Research GPS spoofing techniques and develop robust countermeasures for navigation security.
📍
GPS spoofing detection algorithms
🛰️
Anti-spoofing technologies
🔒
Secure navigation systems
Plan and design a sustainable lunar base station for human habitation and research operations.
🏗️
Location selection and site planning
👨🚀
Human habitation systems
💾
co2 to O2,h2O to h & O2 tech. natural as well as mech.
Develop construction methods for other planets using on-site resource utilization.
🔥
Soil and rock melting using sunlight/electricity
🤖
Extreme temperature-capable machinery
🏗️
3D printing with local materials
Design Low Earth Orbit satellite systems (160-2000 km altitude) with advanced capabilities.
🛰️
LEO orbit optimization (160-2000 km)
⚡
Horizontal thrust: 28,000 km/h
📡
Communication and data relay systems
Create Geostationary Earth Orbit satellites at 35,786 km altitude for long-term applications.
🌐
GEO orbit placement (35,786 km)
📺
Broadcasting and telecommunications
🔭
Earth observation systems