1985 - Fellow of the American Society of Mechanical Engineers
1980 - ASME Gustus L. Larson Memorial Award
His primary areas of investigation include Artificial intelligence, Geometry, Mechanism, Kinematics and Computer vision. His research in Artificial intelligence is mostly focused on Gear train. Arthur G. Erdman interconnects Function and Planar in the investigation of issues within Geometry.
His Mechanism research integrates issues from Limb length, Engineering drawing and Shape-memory alloy. His Kinematics research includes elements of Machine design and Casement window. His Object study in the realm of Computer vision connects with subjects such as Three dimensional model and Form and function.
Arthur G. Erdman mainly investigates Kinematics, Artificial intelligence, Engineering drawing, Control engineering and Mechanical engineering. His research on Artificial intelligence often connects related topics like Computer vision.
His primary scientific interests are in Surgery, Visualization, Medical device, Finite element method and Virtual reality. His study in the fields of Scoliosis under the domain of Surgery overlaps with other disciplines such as Urethral hypermobility. His studies deal with areas such as Interactive design, User interface, Interface and Simulation as well as Visualization.
Many of his studies on Simulation involve topics that are commonly interrelated, such as Artificial intelligence. He combines subjects such as Stress, Engineering drawing, Biomedical engineering and Biomechanics with his study of Finite element method. His Virtual reality research is multidisciplinary, incorporating perspectives in Stereoscopy and Conjoined twins.
Visualization, Biomedical engineering, Acoustics, Finite element method and Artificial intelligence are his primary areas of study. The Visualization study combines topics in areas such as Sketch, User interface, Interface and Virtual reality. The concepts of his Biomedical engineering study are interwoven with issues in Fixture, Mri guided and Actuator.
His Acoustics research incorporates themes from Data acquisition, Controller and Haptic technology. His Finite element method research is multidisciplinary, relying on both Embolus, Spline and Biomechanics. His Artificial intelligence study combines topics in areas such as Computer vision and Reading.
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The big picture on nanomedicine: the state of investigational and approved nanomedicine products
Michael L. Etheridge;Stephen A. Campbell;Arthur G. Erdman;Christy L. Haynes.
Nanomedicine: Nanotechnology, Biology and Medicine (2013)
Foldable lens delivery system
Dennis L. Polla;John A. Costin;Arthur G. Erdman;David J. Peichel.
Mechanism design : analysis and synthesis
Arthur G. Erdman;George N. Sandor.
Method and apparatus for scanning and recording of coordinates describing three dimensional objects of complex and unique geometry
Elizabeth D. Rekow;Donald R. Riley;Arthur G. Erdman;Barney Klamecki.
Method and apparatus for manipulating computer-based representations of objects of complex and unique geometry
Donald R. Riley;Yang Zhu;Elizabeth D. Rekow;Jeong-Ho Ahn.
Automated high precision fabrication of objects of complex and unique geometry
Arthur G. Erdman;Elizabeth D. Rekow;Donald R. Riley;Barney E. Klamecki.
Microdevices in medicine.
Dennis L. Polla;Arthur G. Erdman;William P. Robbins;David T. Markus.
Annual Review of Biomedical Engineering (2000)
CAD/CAM for dental restorations-some of the curious challenges
E.D. Rekow;A.G. Erdman;D.R. Riley;B. Klamecki.
IEEE Transactions on Biomedical Engineering (1991)
Modern kinematics : developments in the last forty years
Arthur G. Erdman.
Implantable limb lengthening nail driven by a shape memory alloy
Michael P. Campbell;Joan E. Bechtold;Arthur G. Erdman.
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