One of the design aspects I find most fascinating is interaction and motion design. I absolutely love crafting captivating micro-interactions and seamless transitions that inject vitality and dynamism into products, creating memorable user experiences.
3D Product Design Projects
Robot design for (FIRA) Federation of International Robot-soccer Association where my team represented India
A robot designed for maneuvering uneven terrain. Fitted with motors, wheels, track belt and camera which is controlled by electric circuit and battery.
This robot navigates uneven terrain using a spring-supported, centrally hinged structure to adjust its tracked wheels. The system is controlled by an electric circuit and powered by a battery.
This is an autonomous, solar-powered device for overhead water tanks. It uses lasers and light refraction (measured by LDDs) to detect water level. Its electronic circuit automatically switches the pump ON when the tank is low and OFF when the tank is full.
House Design
Robot design for (FIRA) Federation of International Robot-soccer Association where my team represented India
A robot designed for maneuvering uneven terrain. Fitted with motors, wheels, track belt and camera which is controlled by electric circuit and battery.
This robot navigates uneven terrain using a spring-supported, centrally hinged structure to adjust its tracked wheels. The system is controlled by an electric circuit and powered by a battery.
This is an autonomous, solar-powered device for overhead water tanks. It uses lasers and light refraction (measured by LDDs) to detect water level. Its electronic circuit automatically switches the pump ON when the tank is low and OFF when the tank is full.
House Design
Robot design for (FIRA) Federation of International Robot-soccer Association where my team represented India
A robot designed for maneuvering uneven terrain. Fitted with motors, wheels, track belt and camera which is controlled by electric circuit and battery.
This robot navigates uneven terrain using a spring-supported, centrally hinged structure to adjust its tracked wheels. The system is controlled by an electric circuit and powered by a battery.
This is an autonomous, solar-powered device for overhead water tanks. It uses lasers and light refraction (measured by LDDs) to detect water level. Its electronic circuit automatically switches the pump ON when the tank is low and OFF when the tank is full.
House Design
Robot design for (FIRA) Federation of International Robot-soccer Association where my team represented India
A robot designed for maneuvering uneven terrain. Fitted with motors, wheels, track belt and camera which is controlled by electric circuit and battery.
This robot navigates uneven terrain using a spring-supported, centrally hinged structure to adjust its tracked wheels. The system is controlled by an electric circuit and powered by a battery.
This is an autonomous, solar-powered device for overhead water tanks. It uses lasers and light refraction (measured by LDDs) to detect water level. Its electronic circuit automatically switches the pump ON when the tank is low and OFF when the tank is full.
House Design
