Instruction Generation for Assembly Operations Performed by Humans

Kaipa, Krishnanand N.; Morato, Carlos W.; Zhao, Boxuan Simen; Gupta, Satyandra K.

doi:10.1115/detc2012-71266

Cited by 10 publications

(5 citation statements)

References 12 publications

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“…The human-robot collaboration based bin-picking described in this paper is one of the key modules required to achieve hybrid work cells for industrial tasks. In our previous work, we have developed other related modules including sequence planning for complex assemblies [27], instruction generation for human operations [28], ensuring human safety [29], and a framework for replanning to recover from errors [30]. As part of the future work, we plan to integrate these individual modules in order to realize the overall operation of the envisioned hybrid cell.…”

Section: Discussionmentioning

confidence: 97%

Resolving automated perception system failures in bin-picking tasks using assistance from remote human operators

Kaipa

Thevendria-Karthic

Shriyam

et al. 2015

2015 IEEE International Conference on Automation Science and Engineering (CASE)

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We present an approach to resolve automated perception failures during bin-picking operations in hybrid assembly cells. Our model exploits complementary strengths of humans and robots. Whereas the robot performs binpicking and proceeds to the subsequent operation like kitting or assembly, a remotely located human assists the robot in critical situations by resolving any automated perception problems encountered during bin-picking. We present the design details of our overall system comprising an automated part recognition system and a remote user interface that allows effective information exchange between the human and the robot that is geared toward solutions that minimize human operator time in resolving the detected perception failures. We use illustrative real robot experiments to show that human-robot information exchange leads to improved bin-picking performance.

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Section: Discussionmentioning

confidence: 97%

Resolving automated perception system failures in bin-picking tasks using assistance from remote human operators

Kaipa

Thevendria-Karthic

Shriyam

et al. 2015

2015 IEEE International Conference on Automation Science and Engineering (CASE)

Self Cite

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“…With this respect, the work of Xiong et al [70] or Morato et al [42] on Rapid-growing Random Trees (RRT) should also be investigated for ViTroVo. Along these lines, we highlight the promising work of Kaipa et al [25], which relied on RRT to procedurally generate animated instructions of a product composed of 71 parts.…”

Section: Related Workmentioning

confidence: 96%

ViTroVo: in vitro assembly search for in vivo adaptive operator guidance

Grappiolo¹,

Pruim²,

Faeth³

et al. 2021

Int J Adv Manuf Technol

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Product customisation is a topic of growing interest in Smart Manufacturing. Allowing customers to design intended products brings additional challenges to the manufacturing task, such as the increase in flexibility of the assembly theatre, the compilation of assembly instructions for possibly unique products, and stress-related risks for human operators. This work introduces ViTroVo, an artificial intelligence framework capable of (1) autonomously building a graph of assembly steps via trial-and-error (in vitro Assembly Search) and (2) presenting relevant instructions to a human operator and, by autonomously detecting her progress and affective state, adapting accordingly (in vivo Adaptive Operator Guidance). The power of ViTroVo resides in its versatile way to manipulate a given product’s component Augmented Computer Aided Design (CAD+) models throughout the whole assembly task. We conducted an empirical evaluation involving participants instructed to assemble a previously unseen product. The encouraging results make us believe ViTroVo’s architecture could become the foundations of highly customised flexible manufacturing.

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“…However, poor instructions lead to the human committing mistakes related to the assembly. We address this issue by utilizing an instruction generation system developed in our previous work [39] that creates effective and easy-to-follow assembly instructions for humans. A linearly ordered assembly sequence (result of Sec.…”

Section: Instructionmentioning

confidence: 99%

“…To address this problem, we utilize a part identification tool developed in Ref. [39] that automatically detects such similarities and present the parts in a manner that enables the human worker to select the correct part. For this purpose, a similarity metric between two parts was constructed based on attributes like part volume, surface area, types of surfaces, and curvature [40,41].…”

Section: Instructionmentioning

confidence: 99%

Design of Hybrid Cells to Facilitate Safe and Efficient Human–Robot Collaboration During Assembly Operations

Kaipa

Morato

Gupta

2018

Journal of Computing and Information Science in Engineering

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This paper presents a framework to build hybrid cells that support safe and efficient human–robot collaboration during assembly operations. Our approach allows asynchronous collaborations between human and robot. The human retrieves parts from a bin and places them in the robot's workspace, while the robot picks up the placed parts and assembles them into the product. We present the design details of the overall framework comprising three modules—plan generation, system state monitoring, and contingency handling. We describe system state monitoring and present a characterization of the part tracking algorithm. We report results from human–robot collaboration experiments using a KUKA robot and a three-dimensional (3D)-printed mockup of a simplified jet-engine assembly to illustrate our approach.

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Instruction Generation for Assembly Operations Performed by Humans

Cited by 10 publications

References 12 publications

Resolving automated perception system failures in bin-picking tasks using assistance from remote human operators

Resolving automated perception system failures in bin-picking tasks using assistance from remote human operators

ViTroVo: in vitro assembly search for in vivo adaptive operator guidance

Design of Hybrid Cells to Facilitate Safe and Efficient Human–Robot Collaboration During Assembly Operations

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