A method of 3-D measuring fixture automatic assembly for auto-body part is presented. Locating constraint mapping technique and assembly rule-based reasoning are applied. Calculating algorithm of the position and pose...A method of 3-D measuring fixture automatic assembly for auto-body part is presented. Locating constraint mapping technique and assembly rule-based reasoning are applied. Calculating algorithm of the position and pose for the part model, fixture configuration and fixture elements in virtual auto-body assembly space are given. Transforming fixture element from itself coordinate system space to assembly space with homogeneous transformation matrix is realized. Based on the second development technique of unigraphics(UG), the automated assembly is implemented with application program interface (API) function. Lastly the automated assembly of measuring fixture for rear longeron as a case is implemented.展开更多
Presented in this paper is a framework for the implementation of a robotic percussive riveting system, a new robot application for aircraft assembly. It is shown here that a successful robot application to the automat...Presented in this paper is a framework for the implementation of a robotic percussive riveting system, a new robot application for aircraft assembly. It is shown here that a successful robot application to the automation of a process requires in-depth research of the process and the interaction with the robot. For this purpose, a process plan- ning-driven approach is proposed to guide a robot applica- tion research. A typical process planning will involve a list of key considerations including: process sequence, process parameters, process tooling, and process control. Through this list, a number of key research issues are identified for robotic percussive riveting, such as rivet pattern planning, rivet time determination, rivet tooling design and rivet insertion control. The detailed research on these issues has effectively created know-how for the successful implemen- tation of our robotic percussive riveting system.展开更多
Automated chemical solid-phase synthesis is an automation platform for rapid and reliable synthesis of glycans.Since the seminal work of Automated Glycan Assembly(AGA)disclosed by Seeberger in 2001,AGA has evolved fro...Automated chemical solid-phase synthesis is an automation platform for rapid and reliable synthesis of glycans.Since the seminal work of Automated Glycan Assembly(AGA)disclosed by Seeberger in 2001,AGA has evolved from a proof-of-concept to a robust and reliable technology for streamlined production of various types of glycans.Through more than 20 years of unceasing efforts,the major breakthroughs in AGA including linkers,approved building blocks,and synthesizers have been acquired,and numerous influential achievements have been made in complex glycan synthesis.In addition,the HPLC-assisted automated synthesis emerges as a promising automation platform to access glycans.In this review,we highlight the key advances in the field of automated chemical solid-phase synthesis,especially in AGA.The synthesis of representative glycans based on AGA is also described.展开更多
文摘A method of 3-D measuring fixture automatic assembly for auto-body part is presented. Locating constraint mapping technique and assembly rule-based reasoning are applied. Calculating algorithm of the position and pose for the part model, fixture configuration and fixture elements in virtual auto-body assembly space are given. Transforming fixture element from itself coordinate system space to assembly space with homogeneous transformation matrix is realized. Based on the second development technique of unigraphics(UG), the automated assembly is implemented with application program interface (API) function. Lastly the automated assembly of measuring fixture for rear longeron as a case is implemented.
文摘Presented in this paper is a framework for the implementation of a robotic percussive riveting system, a new robot application for aircraft assembly. It is shown here that a successful robot application to the automation of a process requires in-depth research of the process and the interaction with the robot. For this purpose, a process plan- ning-driven approach is proposed to guide a robot applica- tion research. A typical process planning will involve a list of key considerations including: process sequence, process parameters, process tooling, and process control. Through this list, a number of key research issues are identified for robotic percussive riveting, such as rivet pattern planning, rivet time determination, rivet tooling design and rivet insertion control. The detailed research on these issues has effectively created know-how for the successful implemen- tation of our robotic percussive riveting system.
文摘Automated chemical solid-phase synthesis is an automation platform for rapid and reliable synthesis of glycans.Since the seminal work of Automated Glycan Assembly(AGA)disclosed by Seeberger in 2001,AGA has evolved from a proof-of-concept to a robust and reliable technology for streamlined production of various types of glycans.Through more than 20 years of unceasing efforts,the major breakthroughs in AGA including linkers,approved building blocks,and synthesizers have been acquired,and numerous influential achievements have been made in complex glycan synthesis.In addition,the HPLC-assisted automated synthesis emerges as a promising automation platform to access glycans.In this review,we highlight the key advances in the field of automated chemical solid-phase synthesis,especially in AGA.The synthesis of representative glycans based on AGA is also described.
