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Welcome to Kollmorgen's Blog in Motion.  We have been adding information and knowledge to the great web based world for many years - through white papers, technical documents, and even webinars.  Kollmorgen enjoys sharing our knowledge with you, as well as identifying other motion related tidbits through our Twitter, Facebook, LinkedIn and YouTube feeds.  Our newest source is Blog in Motion, covering a wide range of topics, as well as some interesting contributing authors with lots of Motion experience.  If Motion Matters to you, stop by, follow, like, and sign up so you can stay tuned for what Kollmorgen has in store for you!

Huge demand for robots, cobots, AI and Industry 4.0 is driving innovation hubs across the globe.  Whether the focus is software, industrial robots, cobots, medical robots or something else - the best way to facilitate and attract talent is to huddle around academic centers and universities.  Thus is born a Robotics Cluster, which is a group of entities that – formally or informally – locate in close geographical proximity.
A collaborative robot (Cobot) is a robot intended to physically interact with humans in a shared workspace. This is in contrast with other robots, designed to operate autonomously. A "cobot" is a robot that works in tandem with a human worker. The assumption is that a cobot and a human can produce an end result better and faster than either could do working alone.

On November 13, 2017 FDA approved a pill that can digitally track if a patient has taken their medication.  The pill is called “Abilify MyCite” and is used to make sure that patients with conditions such as schizophrenia have actually ingested their medication.  As news broke about this new tracking pill it rekindled both concern and excitement about technology in the field of medicine.

Collaborative robots are designed to work safely with and next to their human counterparts.  A subset of collaborative robotics has innovative safety techniques that completely eliminate the need for a safety barrier between the human and the robot.  This enables a wide range of applications to deploy and benefit from this collaborative robot technology.
In July of last year I posted a blog about the CHIMP robotic platform. CHIMP stands for CMU Highly Intelligent Platform. It was one of 16 entries under the DARPA (Defense Advanced Research Agency Projects) sponsored Robotics Challenge program with the goal of developing robotic technologies that can be used in harsh environments such as man-made or natural disasters in lieu of humans. The robots will be required to open doors, turn valves, connect hoses, use hand tools to cut through panels, drive a vehicle, clear debris, and climb a ladder.
The utilization of robotics in manufacturing is currently a $5B industry and is projected to grow to a $20B industry (Source: A Roadmap for U.S. Robotics, From Internet To Robotics - 2013 Edition). A major contributor to the projected growth will come from small to mid-size users in a variety of industries where historically the demand was from the very large corporations in the automotive and aerospace sectors. Counter to traditional industrial robots that are big, noisy, and costly, companies are developing innovative lightweight robots designed for small to mid-sized users.

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