Discover the secrets to harnessing autonomy for outdoor adventures at RoboBusiness
Introduction:
Building robots for off-road environments comes with its own unique set of challenges. These robots need to be durable enough to withstand outdoor conditions while also performing complex tasks. The sensors used must be able to function in any operating condition, and the software must be tailored to the specific task at hand. Additionally, off-road applications such as grass cutting, harvesting, and bulldozing can be power-intensive, requiring energy-saving measures in other areas. At the upcoming RoboBusiness event, Jack Morrison, CEO of Scythe Robotics, will share insights on how unstructured environments influence hardware, perception, and software design decisions for off-road robots. This event is a great opportunity for industry professionals to learn about the latest advancements in autonomous robotics.
Full Article: Discover the secrets to harnessing autonomy for outdoor adventures at RoboBusiness
How Unstructured Environments Impact Off-Road Robots: Insights from Scythe Robotics CEO
Building robots that can navigate and operate in unstructured, off-road environments is challenging. Unlike indoor mobile robots or autonomous on-road vehicles, off-road robots need to be rugged enough to withstand the outdoor environment and the unique tasks they perform. In addition, their sensors must work in all possible operating conditions, and their software processing must be tailored to the specific task at hand. Furthermore, off-road applications such as cutting thick grass, harvesting, or bulldozing can be power-intensive, which necessitates power savings in other areas.
At the upcoming RoboBusiness event, taking place at the Santa Clara Convention Center on October 18-29, Jack Morrison, the Co-Founder and CEO of Scythe Robotics, will share crucial insights gained from developing and deploying the M.52 all-electric, fully autonomous commercial lawn mower. Morrison will discuss how unstructured environments influence hardware, perception, and software design decisions for off-road robots.
The Background of Jack Morrison, CEO of Scythe Robotics
Jack Morrison is a technical leader with a passion for bridging the gap between computers and the physical world. He has a proven track record of leading innovative and collaborative initiatives and organizations. Inspired by the future potential of long-term autonomous robotics, Morrison firmly believes that software engineering and novel research can work together to achieve extraordinary advancements.
Morrison brings deep expertise in computer vision and robotic software to his role as CEO of Scythe Robotics. His career began as a software engineer at MITRE Corporation, where he focused on building computer vision systems for unmanned aerial vehicle (UAV) imagery. He then pursued a Robotics PhD at George Washington University, focusing on long-term, collaborative robotic autonomy and perception. After a brief academic stint, Morrison co-founded Replica Labs, where he developed monocular, dense 3D reconstruction systems from early smartphone video. Replica Labs was later acquired by Occipital. In 2018, Morrison, along with Isaac Roberts and Davis Foster, founded Scythe Robotics, which now has over 50 employees and is expanding its facilities in Longmont, CO.
About RoboBusiness and Field Robotics Engineering Forum
RoboBusiness is a leading event dedicated to the development of commercial robots. The event will feature over 60 speakers, 100 exhibitors, demos on the expo floor, networking receptions, the Pitchfire Robotics Startup Competition, and more. The current list of speakers can be found on the RoboBusiness website, with more speakers to be added.
RoboBusiness will be co-located with the Field Robotics Engineering Forum, an event focused on successfully developing robots for wide-ranging, outdoor, dynamic environments. Additionally, DeviceTalks West, the premier industry event for medical technology professionals, will also be co-located with RoboBusiness. Both events attract professionals from diverse engineering and business backgrounds in healthcare and medical technology.
In conclusion, Jack Morrison, the CEO of Scythe Robotics, will shed light on the critical considerations for developing robots that can operate in unstructured, off-road environments. His insights on hardware, perception, and software design decisions will be shared at the upcoming RoboBusiness event. This event, co-located with the Field Robotics Engineering Forum and DeviceTalks West, offers a unique opportunity for professionals in the robotics and medical technology industries to collaborate and learn from industry leaders.
Summary: Discover the secrets to harnessing autonomy for outdoor adventures at RoboBusiness
Building robots for off-road environments presents unique challenges that differ from indoor and on-road robots. These robots need to be rugged, with sensors and software that can function in various operating conditions. At the upcoming RoboBusiness event, Jack Morrison, the CEO of Scythe Robotics, will share insights on how unstructured environments influence hardware, perception, and software design for off-road robots. With his expertise in computer vision and robotic software, Morrison believes in the combination of software engineering and research to push the boundaries of autonomous robotics. Don’t miss out on this opportunity to learn about the future of off-road robots at RoboBusiness.
Frequently Asked Questions:
Q1: What is robotics?
A1: Robotics is a branch of technology that involves designing, building, and programming machines (robots) to perform tasks autonomously or with minimal human intervention. These robots can be programmed to follow instructions, interact with the environment, and carry out various activities that may be dangerous or tedious for humans.
Q2: How are robots used in everyday life?
A2: Robots have become an integral part of various industries and fields. In everyday life, robots are used in manufacturing industries to automate production processes, perform precision tasks, and increase productivity. They are also employed in healthcare settings for surgical procedures, patient care, and rehabilitation. Additionally, robots are utilized in agriculture, transportation, exploration, and even as companions or assistants in homes.
Q3: What are the benefits of using robots?
A3: The use of robots brings numerous benefits. They can carry out repetitive tasks with great precision and consistency, minimizing errors and improving efficiency. Robots are capable of working in hazardous environments, reducing the risk to human lives. They can also work at higher speeds, increasing productivity. Moreover, robots can be programmed to perform complex calculations and analyze vast amounts of data, aiding in research and decision-making processes.
Q4: Will robots replace human jobs?
A4: While robots are increasingly being employed in various industries, their purpose is not to replace humans but to complement and assist them. Robots are designed to perform tasks that are dangerous, monotonous, or physically strenuous, leaving humans to focus on more complex and creative endeavors. However, it is important for individuals to acquire new skills and adapt to changes in the job market as automation advances.
Q5: How are robots programmed?
A5: Robots can be programmed using various programming languages and software tools, depending on their complexity and purpose. The programming can range from simple instructions to more advanced algorithms and machine learning techniques. The programmers write code that dictates the robot’s behavior, allowing it to carry out specific tasks, respond to stimuli, or learn from its environment. With advancements in robotics, programming interfaces have become more user-friendly, enabling individuals with little or no coding experience to program robots through graphical interfaces or pre-defined functions.
