DGIST Scholar: Adaptive Gain Dynamics for Time Delay Control against Significant Payload Variations and Discontinuous Nonlinearity of Robot Manipulators

DC Field	Value	Language
dc.contributor.advisor	장평훈	-
dc.contributor.author	Junyoung Lee	-
dc.date.accessioned	2019-10-02T16:01:22Z	-
dc.date.available	2019-10-02T16:01:22Z	-
dc.date.issued	2019	-
dc.identifier.uri	http://dgist.dcollection.net/common/orgView/200000171493	en_US
dc.identifier.uri	http://hdl.handle.net/20.500.11750/10694	-
dc.description.statementofresponsibility	prohibition	-
dc.description.tableofcontents	Ⅰ. Introduction 1 1.1 Motivations and Objects 1 1.2 Proposed Methodology 3 1.3 Overview 5 1.4 Nomenclature 6 Ⅱ. Preliminaries 8 2.1 Target System and Control Objective 8 2.2 Time Delay Control (TDC) 10 2.2.1 Time Delay Estimation (TDE) 10 2.2.2 TDC for Robot Manipulators 11 2.2.3 Discontinuous Nonlinearity 12 2.3 Existing Researches 16 2.3.1 TDC with a Constant Gain 16 2.3.2 Adaptive Rules for the TDC 17 Ⅲ. Design of Adaptive Gain Dynamics 19 3.1 Design of Adaptive Gain Dynamics for Payload Variations 19 3.1.1 Adaptive Gain Dynamics for Gain 19 3.1.2 Stability Analysis-1 21 3.2 Design of Adaptive Gain Dynamics for Discontinuous Nonlinearity 23 3.2.1 Adaptive Gain Dynamics for Gain K 23 3.2.2 Stability Analysis-2 25 3.3 Integration of Two Adaptive Gain Dynamics 28 3.4 Summary 29 Ⅳ. Simulation Studies 30 4.1 Simulation Setup 30 4.1.1 Simulation Environment 30 4.1.2 Numerical Differentiation for Velocity and Acceleration 31 4.2 Adaptive Gain Dynamics for Payload Variations 32 4.2.1 Scenario 1. TDC with Constant Gains 32 4.2.2 Scenario 2. Comparison of Constant Gain with Adaptive Gain 32 4.2.3 Scenario 3. Adaptability of Adaptive Gain Dynamics 35 4.3 Adaptive Gain Dynamics for Discontinuous Nonlinearity 38 4.4 Integration of Two Adaptive Gain Dynamics 40 Ⅴ. Experimental Studies 42 5.1 Experimental Setup 42 5.1.1 Experimental Environment 42 5.1.2 Performance Indices 45 5.2 Adaptive Gain Dynamics for Payload Variations 46 5.2.1 Scenario 1. Gain Adaptation to Payload Variations 46 5.2.2 Scenario 2. Comparison with Previous studies 46 5.3 Adaptive Gain Dynamics for Discontinuous Nonlinearity 53 5.3.1 Scenario 1. Gain Adaptation to Discontinuous Nonlinearity 53 5.3.2 Scenario 2. Comparison with Previous study 59 5.4 Integration of Two Adaptive Gain Dynamics 63 5.4.1 Scenario 1. Gain Adaptation to Payload Variations and Discontinuous Nonlinearity 63 5.4.2 Scenario 2. Comparison Studies 63 Ⅵ. Conclusion 69	-
dc.format.extent	88	-
dc.language	eng	-
dc.publisher	DGIST	-
dc.source	/home/dspace/dspace53/upload/200000171493.pdf	-
dc.subject	로봇 제어	-
dc.title	Adaptive Gain Dynamics for Time Delay Control against Significant Payload Variations and Discontinuous Nonlinearity of Robot Manipulators	-
dc.type	Thesis	-
dc.identifier.doi	10.22677/thesis.200000171493	-
dc.description.degree	DOCTOR	-
dc.contributor.department	Robotics Engineering	-
dc.identifier.bibliographicCitation	Junyoung Lee. (2019). Adaptive Gain Dynamics for Time Delay Control against Significant Payload Variations and Discontinuous Nonlinearity of Robot Manipulators. doi: 10.22677/thesis.200000171493	-
dc.contributor.coadvisor	Maolin Jin	-
dc.date.awarded	2019-02	-
dc.publisher.location	Daegu	-
dc.description.database	dCollection	-
dc.citation	XT.RD 이76 201902	-
dc.date.accepted	2019-01-30	-
dc.contributor.alternativeDepartment	로봇공학전공	-
dc.embargo.liftdate	2022-03-01	-
dc.contributor.affiliatedAuthor	Junyoung Lee	-
dc.contributor.affiliatedAuthor	Jin, Maolin	-
dc.contributor.affiliatedAuthor	Chang, Pyung Hun	-
dc.contributor.alternativeName	Pyung Hun Chang	-
dc.contributor.alternativeName	김무림	-
dc.contributor.alternativeName	이준영	-

Show Simple Item Record

File Downloads

There are no files associated with this item.

Detail View

File Downloads

공유

Total Views & Downloads