Dtto, a modular robot designed with search and rescue in mind, has just been named the winner of the 2016 Hackaday Prize. In addition to the prestige of the award, Dtto will receive the grand prize of $150,000 and a residency at the Supplyframe Design Lab in Pasadena, CA.
This year’s Hackaday Prize saw over 1,000 entires during five challenge rounds which asked people to Build Something that Matters. Let’s take a look at the projects that won the top five prizes. They exemplify the five challenge themes: Assistive Technologies, Automation, Citizen Scientist, Anything Goes, and Design Your Concept.
Grand Prize Winner ($150,000 and a residency at the Supplyframe Design Lab): Dtto is modular robot built with 3D printed parts, servo motors, magnets, and readily available electronics. Each module consists of two boxes, rounded on one side, connected by a bar. The modules can join with each other in many different orientations using the attraction of the magnets. Sections can separate themselves using servo motors.
Dtto is groundbreaking in its ability to make modular robots experimentation available to roboticists and hobbiests everywhere by sidestepping what has traditionally been a high-cost undertaking. While it’s easy to dismiss this concept, the multitude of different mechanisms built from modules during testing drives home the power of the system.
Third Place ($10,000): An optics bench is a series of jigs used to hold and precisely align elements for optical experiments. Traditionally this meant highly specialized equipment starting in the tens-of-thousands of dollars. But schools, hackerspaces, and individuals don’t need top-of-the-line equipment to begin learning about optics. The project has designed holders for salvaged optics and the ancillary materials to conduct experiments, and even includes a standardized carrying case design.
Fifth Place ($5,000). Stepper motors are known for accurate movement, but they are often used as open loop systems and prone to lose track of position either from missed steps or outside interference. Mechaduino adds a high accuracy magnetic encoder to any of several commonly available stepper motors, closing that loop and adding functionality. This includes positional awareness, but goes for beyond to velocity and torque control, and user interaction.