This project was a MEMS 411 Senior Design project completed for a potential future WashU Rocketry Team rover contest. The rover was required to be battery operated, controlled by an RC transmitter/receiver, and utilize micro-servo motors for actuation. The rover was required to be navigated via 1st person camera. The rover needed to weigh less than 3.5 lbs, and able to fit into a 5.36 diameter and 8.5 long cylinder. The rocks needed to be stored inside the rover and to be collected without using adhesive
This project aims at designing a robot that is capable of playing a simplified form of soccer agains...
The annual NASA Robotic Mining Challenge: Lunabotics tasks teams with building robots capable of tra...
Continuing their work from last semester on the Unpressurized Manned Rover for Use on Mars Surface t...
The following report has been prepared for MEMS 411 Mechanical Engineering Design Project and contai...
Design a remote controlled Rock-Collecting Rover that can store 35 rocks while moving, can navigate ...
We were tasked with designing a remote-controlled vehicle that is capable of collecting and holding ...
The rock collecting over project challenged groups to construct a small,, remote controlled rover th...
The goal of this project is to create a remotely-controlled rover that can reliably collect dice. Th...
To design, build, and test an autonomous canister vehicle to compete in the ARLISS competition. Desi...
Our project was the ARLISS competition project, more specifically the second part of the project whe...
The Rover Mechanical Arm and Turret (RAT) team was originally tasked with designing and building a m...
In this hardware project the students designed the prototype of a novel mini-rover for the explorati...
This design project was altered from the 2018 ASME Soccer Robot competition. Dr. Jackson Potter led ...
Planetary surface exploration micro-rovers for collecting data about the Moon and Mars have been des...
This project is a dicycle designed for the ARLISS Canister Competition. In this competition, the dev...
This project aims at designing a robot that is capable of playing a simplified form of soccer agains...
The annual NASA Robotic Mining Challenge: Lunabotics tasks teams with building robots capable of tra...
Continuing their work from last semester on the Unpressurized Manned Rover for Use on Mars Surface t...
The following report has been prepared for MEMS 411 Mechanical Engineering Design Project and contai...
Design a remote controlled Rock-Collecting Rover that can store 35 rocks while moving, can navigate ...
We were tasked with designing a remote-controlled vehicle that is capable of collecting and holding ...
The rock collecting over project challenged groups to construct a small,, remote controlled rover th...
The goal of this project is to create a remotely-controlled rover that can reliably collect dice. Th...
To design, build, and test an autonomous canister vehicle to compete in the ARLISS competition. Desi...
Our project was the ARLISS competition project, more specifically the second part of the project whe...
The Rover Mechanical Arm and Turret (RAT) team was originally tasked with designing and building a m...
In this hardware project the students designed the prototype of a novel mini-rover for the explorati...
This design project was altered from the 2018 ASME Soccer Robot competition. Dr. Jackson Potter led ...
Planetary surface exploration micro-rovers for collecting data about the Moon and Mars have been des...
This project is a dicycle designed for the ARLISS Canister Competition. In this competition, the dev...
This project aims at designing a robot that is capable of playing a simplified form of soccer agains...
The annual NASA Robotic Mining Challenge: Lunabotics tasks teams with building robots capable of tra...
Continuing their work from last semester on the Unpressurized Manned Rover for Use on Mars Surface t...