Patent ID: 7541925
Filing Date: 2009-06-02
Classification: G01R

Abstract:
1. A process for deploying computing infrastructure, said process comprising integrating computer-readable code into a computing system, wherein the code in combination with the computing system is capable of performing a method for determining optimal radio transponder placement on an object, said method comprising: exposing by an electromagnetic field generator, a layer of electromagnetic field, absorbing material, a thermal insulating layer, and an object to an electromagnetic field, wherein said thermal insulating layer is located between said object and said electromagnetic field absorbing material, and wherein said layer of electromagnetic field absorbing material comprises Acrylonitrile Butadiene Styrene (ABS) plastic; generating in response to said exposing, areas of thermal differences within said layer of electromagnetic field absorbing material; detecting by an infrared camera, said areas of thermal differences, wherein said areas of thermal differences indicate corresponding areas of differential electromagnetic field strength on a first surface of said object, and wherein said computing system is connected to said infrared camera; and generating by said computing system, a thermal map illustrating each of said areas of thermal differences, wherein a first area of said areas of thermal differences comprising a highest temperature indicates a second area of electromagnetic field strength from said corresponding areas of differential electromagnetic field strength on said first surface comprising a highest electromagnetic field strength, wherein said computing system comprises a memory structure comprising graphics data, wherein said graphics data comprises graphics constraints associated with graphics located on said first surface, wherein said graphics are selected from the group consisting of a company logo and a bar code, wherein said graphics data indicates that said second area does not comprise any graphics constraints, and wherein said second area comprises an optimal location for placing a radio transponder for tracking said object.