A motion sensing unit for robots allows for orientation detection and location estimation
Panasonic Corporation announced today that it has developed a "Motion Sensing Unit" that performs orientation detection and position estimation for industrial and service robots. In addition to an acceleration sensor and a gyro sensor that employ silicon Micro Electro Mechanical Systems (MEMS) detector elements, this new unit incorporates Panasonic's own algorithms that take advantage of these sensors, enabling highly accurate detection of orientation and positioning information.
With the expanding need for labor-saving measures, manufacturing automation, and technology to support aging populations, the market for robotics, including industrial and service robots, is growing rapidly. There is a pressing need to efficiently develop highly accurate orientation detection for robots along with functions such as position estimation, in a short period of time. The newly developed motion sensing unit enables high-precision sensing as it incorporates algorithms and parameter settings.
Panasonic's Motion Sensing Unit has the following features:
- High-speed output of high-precision orientation information based on the development of proprietary algorithms and technology for processing detector elements
- Ability to have preset parameters according to the customer's application
- Correspondence to six-axis detection algorithms for three rectilinear and three rotational movement in XYZ directions
The newly developed product is comprised of the following elemental technologies:
- Algorithm technology to optimize sensor combination
- Technology for high-precision processing of silicon MEMS sensing elements
To realize high-precision motion sensing units, many robot manufacturers purchase devices such as acceleration and gyro sensors, and then develop their own software to control those devices. This places a lot of burden on the design of software needed to obtain highly accurate orientation information, which in turn increases development time and costs. The newly developed unit will help to reduce robot development workload.
Suitable applications
Vibration suppression, anomaly detection, orientation control detection, and position estimation for autonomous industrial (non-automotive) mechanical systems including industrial robots, service robots, heavy equipment, agricultural machinery, and amusement arcade equipment.
Sample shipments are scheduled to start by the end of 2016.
Features
- High-speed output of high-precision orientation information based on the development of proprietary algorithms and technology for processing detector elements: In order to realize faster and higher precision robot operation, it is important to quickly and accurately ascertain the orientation and position of the robot body. The newly developed product detects rotational and linear motion in the XYZ directions, and performs high-speed output of highly accurate orientation information. As a result, it enables rapid and accurate control of the robot drive and orientation.
- Ability to have preset parameters according to the customer's application: For robot drive control, it is necessary to ascertain a variety of information such as orientation detection and position estimation. Currently, robot manufacturers perform a variety of software parameter settings with an emphasis on accuracy or speed, etc., depending on the application. The problem however, is that this requires time for software development. Since the newly developed product can be delivered with preset parameters according to the application, it makes robot settings easier for the manufacturer. Then it will help to reduce robot development workload.
- Correspondence to six-axis detection for rectilinear and rotational movement in XYZ directions: Given design diversification and the expansion of environments in which robots are used, built-in sensors need to be easily installed regardless of the mounting direction. The newly developed product has six-axis detection for rectilinear and rotational movement in XYZ directions. This means it can detect complex movements whether mounted in the vertical, horizontal, or diagonal directions. Therefore, it expands robotic applications by working in a variety of usage and installation environments.
Panasonic's technologies
- Algorithm technology to optimize sensor combination: Generally, gyro sensors offer superior high-speed response. However, measurement errors tend to increase when measurements are continued for a long period of time. Similarly, acceleration sensors can make highly accurate measurements, but they are susceptible to vibration. By developing fusion algorithms for an orientation detection sensor based on Panasonic's proprietary algorithms, the disadvantages of the aforementioned sensors have been eliminated. Accordingly, with the newly developed product, Panasonic has realized both detection accuracy and response speed, which had been a challenge previously. At the same time, highly accurate orientation information output for low to high-speed movement has been realized.
- Technology for high-precision processing of silicon MEMS sensing elements: To achieve a high accuracy sensor, the detector elements must be processed with high precision. Panasonic developed processing technology with low-distortion and a high aspect ratio. It also realized a small MEMS detector element that can obtain high-precision orientation information.
Provided by Panasonic Corporation
