초록 ▼

A system for remote inspection of items including at least one inspection machine constructed to examine an item under inspection to obtain information about the item, a database coupled to the at least one inspection machine that receives and stores the information about the item in an item file, t

A system for remote inspection of items including at least one inspection machine constructed to examine an item under inspection to obtain information about the item, a database coupled to the at least one inspection machine that receives and stores the information about the item in an item file, the item including a unique item identifier, and an item file inspection device that receives the item file, analyzes data contained in the item file and records screening information based on an analysis of the item file. The system also includes a server that controls transfer of the item file and the screening information between the database and the item file inspection device. The screening information is linked with the item file using the unique item identifier. The item file inspection device is located remote from the at least one inspection machine.

대표청구항 ▼

A system for remote inspection of items including at least one inspection machine constructed to examine an item under inspection to obtain information about the item, a database coupled to the at least one inspection machine that receives and stores the information about the item in an item file, t

A system for remote inspection of items including at least one inspection machine constructed to examine an item under inspection to obtain information about the item, a database coupled to the at least one inspection machine that receives and stores the information about the item in an item file, the item including a unique item identifier, and an item file inspection device that receives the item file, analyzes data contained in the item file and records screening information based on an analysis of the item file. The system also includes a server that controls transfer of the item file and the screening information between the database and the item file inspection device. The screening information is linked with the item file using the unique item identifier. The item file inspection device is located remote from the at least one inspection machine. urrent reflectivity distribution in space and how the radar receives the measurements; a third component for subtracting the generated prediction of the radar measurement from the received radar measurement; a fourth component for adjusting one or more reflectivity values based on the result of the subtraction; and a fifth component for storing the one or more adjusted reflectivity values, wherein the stored reflectivity values represent a portion of environment around the radar system. 12. The product of claim 11, wherein the fourth component adjusts further based on uncertainty of the reflectivity distribution. 13. The product of claim 11, wherein the second component generates based on an antenna beam radiation pattern and a radar range weighting function. 14. The product of claim 11, wherein the fourth component updates a previously stored reflectivity value. 15. The product of claim 11, further comprising a sixth component for generating an estimate of ground normalized radar cross-section. ith an external diameter, said external diameter being larger than said inner diameter of said second cylindrical space. 14. A structure for supporting an antenna comprising: a radiator for radiating an electric wave; an antenna-supporting member, which is formed under said radiator and shaped into a cylinder; an antenna-inserting portion, which is formed in a wall of a casing and includes a first cylindrical space for accommodating said antenna-supporting member; locking claws, which are connected with a lower end of said antenna-supporting member and interlocked with a lower edge of an inner wall of said first cylindrical space; and a rubber bush, which includes a through hole, through which said antenna-supporting member passes and is inserted between said radiator and said antenna-inserting portion, wherein an upper part of said antenna-inserting portion includes a second cylindrical space, which is concentric with said first cylindrical space, and has a predetermined depth and an internal diameter larger than that of said first cylindrical space, and a lower part of said rubber bush fits into said second cylindrical space. 15. The structure for supporting an antenna according to claim 14, wherein a ring-shaped convex portion is formed on a periphery of said lower part of said rubber bush, and wherein an internal diameter of said ring-shaped convex portion is larger than that of said through hole of said rubber bush. 16. The structure for supporting an antenna according to claim 15, wherein a circular groove is formed on a bottom surface of said second cylindrical space and along an inner periphery thereof, and wherein said ring-shaped convex portion of said rubber bush fits into said circular groove. 17. A structure for supporting an antenna, comprising: a radiator for radiating an electric wave; an antenna-supporting member formed adjacent said radiator; an antenna-inserting portion including a first cylindrical space formed in a wall of a casing for accommodating said antenna-supporting member; locking claws connected with a lower end of said antenna-supporting member and interlocked with said first cylindrical space; and a rubber bush, including a through hole through which said antenna-supporting member passes, inserted between said radiator and said antenna-inserting portion, wherein said rubber bush comprises a portion which fits into an upper part of said antenna-inserting portion. 18. The structure for supporting an antenna according to claim 17, wherein said portion of said rubber bush comprises a ring-shaped convex portion formed on a periphery of a lower part of said rubber bush. 19. The structure according to claim 17, wherein said upper part comprises a circular groove formed on a bottom surface of said upper part and along an inner periphery thereof, and wherein said ring-shaped convex portion fits into said circular groove. 20. A structure for supporting an antenna, comprising: a radiator for radiating an electric wave; an antenna-supporting member formed under said radiator; an antenna-inserting portion, which is formed in a casing and includes a first cylindrical space for accommodating said antenna-supporting member; locking claws connected with a lower end of said antenna-supporting member and interlocked with an inner wall of said first cylindrical space; and a rubber bush, including a through hole through which said antenna-supporting member passes, inserted between said radiator and said antenna-inserting portion, wherein an upper part of said antenna-inserting portion includes a second cylindrical space, which is concentric with said first cylindrical space, and has an internal diameter larger than that of said first cylindrical space, and a lower part of said rubber bush fits into said second cylindrical space. l antenna comprises a first directional antenna mounted on a folder of the mobile communication terminal, and a second directional antenna mounted on a body of the mobile communication terminal. In a suspended state where the folder is folded against the body, the first and second directional antennas have directivities in an opposite direction. However, in a call state where the folder is unfolded away from the body, the first and second directional antennas have directivities in the same direction. Preferably, the first directional antenna is mounted on a rear side of the body of the mobile communication terminal, and the second directional antenna is mounted on an outer side of the folder of the mobile communication terminal.