1: BEAM robotics: Explore the fundamental principles driving bioinspired autonomous robots.
2: Embedded system: Understand the backbone tech enabling control in complex robotics applications.
3: Mark Tilden: Discover the mind behind BEAM robotics and his revolutionary robotics approach.
4: Behaviorbased robotics: Delve into robots designed to exhibit lifelike behavioral responses.
5: Heliostat: Learn about robotic heliostats and their role in solar energy applications.
6: Solarroller: Study solarpowered BEAM robots with dynamic energyefficient designs.
7: Crawler (BEAM): Analyze BEAM crawlers and their movement inspired by biological organisms.
8: Analog robot: Examine analogcontrolled robots and their streamlined circuitry.
9: Mobile robot: Understand the technology behind autonomous, movementfocused robots.
10: HERO (robot): Get insights into HERO’s role in educational and developmental robotics.
11: Brosl Hasslacher: Uncover the contributions of Brosl Hasslacher to BEAM robotics.
12: Stiquito: Explore Stiquito, the versatile insectlike robot used in educational settings.
13: RS Media: Learn about RS Media, the multimedia robot that brings interactive experiences.
14: Roboquad: Discover Roboquad’s fourlegged design, balancing stability with flexibility.
15: Webots: Dive into Webots, a simulator tool that advances robot research and design.
16: Braitenberg vehicle: Investigate these unique robots that mimic cognitive responses.
17: IISc Guidance, Control and Decision Systems Laboratory: Overview the lab’s pioneering research in autonomous robotics.
18: Elmer and Elsie (robots): Examine the early robot prototypes that led to behaviorbased robotics.
19: Microprocessor: Understand the microprocessor’s crucial role in robotics control and function.
20: Microcontroller: Explore microcontrollers that provide essential computing power for robots.
21: AVR microcontrollers: Review the AVR family, integral to many modern robotics applications.