A universal algorithm for sensorless collision detection of robot actuator faults

Chen, Saixuan; Luo, Minzhou; He, Feng

doi:10.1177/1687814017740710

Cited by 23 publications

(15 citation statements)

References 22 publications

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“…Many of these studies focus on the best technique to employ in getting rid of collision when using rescue robots. For instance, in a study titled "A Universal Algorithm for Sensorless Collision Detection of Robot Actuator Faults," Chen et al came up with a universal algorithm for a sensorless collision detection of robot [30]. This control system differs from the normal control algorithm significantly.…”

Section: The Potentials Of Sensorless Sensing Methods For Rescue Robotmentioning

confidence: 99%

Challenges for Novice Developers in Rough Terrain Rescue Robots: A Survey on Motion Control Systems

Pillai

Suthakorn

2019

Journal of Control Science and Engineering

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Several researchers have revealed the huge potentials of rescue robots in disaster zones. In addition to searching for victims, these intelligent machines are also effective in obtaining useful information from the zones. These functions help to optimize the search and rescue missions. However, the fact that rescue robots have to operate in risky and dangerous environments necessitates the need for such machines to have an efficient motion control system, which can help them to operate autonomously or with minimal human control. This paper reviews the use of reliable controllers in enhancing the sensing capabilities of rescue robots. Huge potential of sensorless sensing method in the rescue robots are highlighted. It is shown that the use of sensorless sensing method enables developer to create simple and cheaper robots for various complex situations. Thus, it is imperative to conduct further studies on how to optimize the operations of robots that lack sensors.

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Section: The Potentials Of Sensorless Sensing Methods For Rescue Robotmentioning

confidence: 99%

Challenges for Novice Developers in Rough Terrain Rescue Robots: A Survey on Motion Control Systems

Pillai

Suthakorn

2019

Journal of Control Science and Engineering

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“…For example, Wahrburg et al [10] presented a Kalman filterbased approach for estimating external forces and torques relying on a dynamic model of a serial-chain robotic manipulator where only motor signals (currents, joint angles, and joint speeds) are measurable. Chen et al [11] proposed a universal algorithm for the sensorless collision detection of robot actuator faults to enhance the security of the robot. This collision detection algorithm can be implemented without any external sensors or acceleration and can realize realtime detection just needed to measure the motor current and the location information from the encoder of the robot joint.…”

Section: Introductionmentioning

confidence: 99%

“…To protect against collisions of the picking manipulator, this article proposes flexible joints based on an elastic actuator that can partly absorb the shock of an impact during collisions involving the manipulator and can help reduce damage to the manipulator and plants. At the same time, the collision detection algorithm is designed based on the current feedback of the joint motor inspired by the third method above [11], [12]. The collision detection algorithm is used to establish a control system for flexible joints of the picking manipulator based on moment feedback.…”

Section: Introductionmentioning

confidence: 99%

Flexible Joints of Picking Manipulator Based on Current Feedback

et al. 2020

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During the process of automatic picking, malfunctions caused by collisions between the picking manipulator and obstacles can damage plants and/or injure staff. To solve this problem, a flexible joint based on an elastic actuator is designed. Using a collision detection algorithm based on monitoring the current, a feedback control system with a flexible joint moment is set up, and a protection mechanism for the staff and plants against collisions with the manipulator during the automatic picking process is established. The results of the experiments on a prototype show that the proposed feedback control system with flexible joint moment can detect collisions of the manipulator with high accuracy. Based on the jump value of the current during collision detection, the impact moment on the flexible joint is estimated to have a minimum resolution of 2.444 × 10 −3 N•m. The frequency of collision detection is 37 Hz, and the minimum estimation error in the impact moment of the flexible joint is 2.25%.

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“…Although this method can detect the collision force accurately, it can just detect the collision where the sensor is located; moreover, it is an expensive solution. In order to cope with the problems of utilizing external sensors, there are other collision/interaction detection techniques without using external sensors (sensor-less) proposed in the literature [25][26][27][28][29][30]. These methods are able to extract more information from a physical collision and efficiently estimate the actual joints torque due to collision, but it required reliable information on full dynamic model, or at least the gravity model as in [31,32], which might not be available for many of the industrial robots.…”

Section: Introductionmentioning

confidence: 99%

Adaptive threshold for robot manipulator collision detection using fuzzy system

et al. 2020

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The topic of collision detection was recently addressed in the literature due to the demand of safe human-robot collaboration. Several methods have been proposed for this task; some of these methods use external sensors while others do not (sensor-less). The classical sensor-less method is attained by setting a threshold to detect the change in torque/ current. This method is simple and applicable for real-time implementation and does not require any prior information on the robot dynamical model. However, any wrong choices on the threshold value might lead up to undesirable performance. Therefore, in this paper we propose an evolved solution using the classical method while operating the fuzzy logic system. The enhanced system results in an adaptive collision threshold based on the variation of the robots speed and acceleration. The system is presented in this paper along with the experimental setup and the implementation steps.

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A universal algorithm for sensorless collision detection of robot actuator faults

Cited by 23 publications

References 22 publications

Challenges for Novice Developers in Rough Terrain Rescue Robots: A Survey on Motion Control Systems

Challenges for Novice Developers in Rough Terrain Rescue Robots: A Survey on Motion Control Systems

Flexible Joints of Picking Manipulator Based on Current Feedback

Adaptive threshold for robot manipulator collision detection using fuzzy system

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