The Spatial Grasp Model suggests uses beyond the theoretical, including the examination of hurricanes and forest fires. Investigating group behaviour of ocean animals, discovery of unknown terrain features, and path-findings in large transport networks truly demonstrates the real-world application of SGL.
Born half a century ago, predating the internet and named WAVE in its infantry, the Spatial Grasp Model has been tested on numerous applications: graph and network theory, collective robotics, crisis management, security and defense, social systems, and space-based systems. The Spatial Grasp Model confirms the potential applicability of the developed paradigm, language, and technology for solving much broader classes of problems, especially those related to large and unknown worlds.
Presenting the main ideas of the Spatial Grasp paradigm and details of its key Spatial Grasp Language (SGL) – including its philosophy, methodology, syntax, semantics, and interpretation in distributed systems – Sapaty explores extended technological applications of the approach. Allowing us to evaluate large, distributed phenomena by their physical or virtual coverage, The Spatial Grasp Model suggests uses beyond the theoretical, including the examination of hurricanes and forest fires. Investigating group behaviour of ocean animals, discovery of unknown terrain features, and path-findings in large transport networks truly demonstrates the real-world application of SGL.
Applicable for high-level formulation of key problems and their solutions in the place of natural languages, The Spatial Grasp Model is crucial reading for researchers across multiple fields faced with developing global.
Born half a century ago, predating the internet and named WAVE in its infantry, the Spatial Grasp Model has been tested on numerous applications: graph and network theory, collective robotics, crisis management, security and defense, social systems, and space-based systems. The Spatial Grasp Model confirms the potential applicability of the developed paradigm, language, and technology for solving much broader classes of problems, especially those related to large and unknown worlds. Presenting the main ideas of the Spatial Grasp paradigm and details of its key Spatial Grasp Language (SGL) – including its philosophy, methodology, syntax, semantics, and interpretation in distributed systems – Sapaty explores extended technological applications of the approach. Allowing us to evaluate large, distributed phenomena by their physical or virtual coverage, The Spatial Grasp Model suggests uses beyond the theoretical, including the examination of hurricanes and forest fires. Investigating group behaviour of ocean animals, discovery of unknown terrain features, and path-findings in large transport networks truly demonstrates the real-world application of SGL. Applicable for high-level formulation of key problems and their solutions in the place of natural languages, The Spatial Grasp Model is crucial reading for researchers across multiple fields faced with developing global.
