Venetiis : ex Vnitorum Societate, 1585

[62] carte, 2042 [i.e. 2044] colonne, [1] carta ; 4º

Latino

Di Erasmo da Rotterdam

Marca (Z1107) sul frontespizio

Corsivo ; greco ; romano

Segnatura: ✝⁴ A-O⁴P², A-3S⁸, c. 3S8 bianca

Ripetute nella numerazione le colonne 1855-1856

Iniziali e fregi xilografici

Berlin, Heidelberg : , : Springer Berlin Heidelberg : , : Imprint : Springer, , 1993

3-540-47913-9

1 online resource (VIII, 288 p.)

Lecture Notes in Computer Science, , 0302-9743 ; ; 708

006.3/7/01516

Robotics

Automation

Optical data processing

Computer graphics

Artificial intelligence

Control engineering

Mechatronics

Engineering economics

Engineering economy

Robotics and Automation

Image Processing and Computer Vision

Computer Graphics

Artificial Intelligence

Control, Robotics, Mechatronics

Engineering Economics, Organization, Logistics, Marketing

Inglese

Bibliographic Level Mode of Issuance: Monograph

Shortest paths of bounded curvature in the plane -- Kinodynamic planning in a structured and time-varying workspace -- Motion planning for a non-holonomic mobile robot on 3-dimensional terrains -- Optimal motion planning of a mobile robot on a triangulated terrain model -- Landmark-based robot motion planning -- Using genetic algorithms for robot motion planning -- Fast mobile robots in

unstructured environments -- A new approach to visual servoing in robotics -- Geometric solutions to some 3D vision problems -- Geometrical representation of shapes and objects for visual perception -- Perceptual grouping for scene interpretation in an active vision system -- Incremental free-space modelling from uncertain data by an autonomous mobile robot -- Matching 3-D smooth surfaces with their 2-D projections using 3-D distance maps -- A new physically based model for efficient tracking and analysis of deformations -- From splines and snakes to snake splines.

Geometry is a powerful tool to solve a great number of problems in robotics and computer vision. Impressive results have been obtained in these fields in the last decade. It is a new challenge to solve problems of the actual world which require the ability to reason about uncertainty and complex motion constraints by combining geometric, kinematic, and dynamic characteristics. A necessary step is to develop appropriate geometric reasoning techniques with reasonable computational complexity. This volume is based on a workshop held in Grenoble, France,in September 1991. It contains selected contributions on several important areas in the field of robotics and computer vision. The four chapters cover the following areas: - motion planning with kinematic and dynamic constraints, - motion planning and control in the presence of uncertainty, - geometric problems related to visual perception, -numerical problems linked to the implementation of practical algorithms for visual perception.