Pinned Repositories
Robotic_arm
The robot is expected to perform primary pick and place operations and repeat the recorded actions. It has four degrees of freedom. The robotic arm is mounted on a base that allows it to traverse between different geographical locations. Arduino Mega 2560 is used for controlling functionalities of the robot. The robot was developed in four stages. In the first stage, the robot was controlled with the help of potentiometer. In the second stage of development, wireless functionality was added. It was accomplished using HC-05 Bluetooth module. The third stage of development included usage of the real-time database over the internet. The robot was controlled using an android application for the stages mentioned above. In the fourth stage, a Unity-3D model was integrated to realize the real-time visual simulation of the robot. This is the code for controlling the arm via Bluetooth Module
Balloon_Shooting_Game
A Balloon shooting game made in C
boomslang
cfdev
A fast and easy local Cloud Foundry experience on native hypervisors, powered by LinuxKit with VPNKit
JAVA-based-8085-simulator
Working 8085 simulator in JAVA
jaisalj's Repositories
jaisalj/cfdev
A fast and easy local Cloud Foundry experience on native hypervisors, powered by LinuxKit with VPNKit
jaisalj/JAVA-based-8085-simulator
Working 8085 simulator in JAVA
jaisalj/Balloon_Shooting_Game
A Balloon shooting game made in C
jaisalj/Robotic_arm
The robot is expected to perform primary pick and place operations and repeat the recorded actions. It has four degrees of freedom. The robotic arm is mounted on a base that allows it to traverse between different geographical locations. Arduino Mega 2560 is used for controlling functionalities of the robot. The robot was developed in four stages. In the first stage, the robot was controlled with the help of potentiometer. In the second stage of development, wireless functionality was added. It was accomplished using HC-05 Bluetooth module. The third stage of development included usage of the real-time database over the internet. The robot was controlled using an android application for the stages mentioned above. In the fourth stage, a Unity-3D model was integrated to realize the real-time visual simulation of the robot. This is the code for controlling the arm via Bluetooth Module
jaisalj/boomslang