Abstract: A system, various methods, and a specific apparatus are provided for the purpose of supporting push-to-talk (PTT) service for a very large group featuring a significantly higher number of listeners than the number of potential talkers, as well as a constrained vocabulary in normal usage. The invention takes advantage of speech-to-text and text-to-speech conversion in end user devices for maximum utterance compression. The invention uses the Iridium Mobile Satellite Service (MSS) system and its Short Burst Data (SBD) service for unicast transmission of talker utterances to a PTT Server, and the same system's Global Data Broadcast (GDB) service for multicast retransmission of utterances from the PTT Server to an effectively unlimited number of listeners. The PTT Server provides priority ordering and preemption as necessary when multiple talkers provide near-simultaneous utterances, effectively managing the floor without interactive protocols among the talkers.

Abstract: A method of scheduling a transmission with a multi-beam satellite system receives, at a dynamic pricer, a request parameter that is associated with a request to transmit data via a multi-beam satellite system. The method determines a plurality of transmission solutions that satisfy the request parameter. The plurality of transmission solutions are transmitted, from the dynamic pricer, to a transmission requesting device. An indication is received, at the dynamic pricer, as to which particular transmission solution is selected by the transmission requesting device. The multi-beam satellite system is scheduled to transmit a payload in accordance with the selected particular transmission solution. A system is provided that operates the method.

Abstract: In accordance with the principles of the present invention utilizing a first radiation monitoring module, radiation information associated with the first radiation monitoring module within a tunnel is wirelessly transmitted to a second radiation monitoring module. The second radiation monitoring module is able to receive radiation information from the first radiation monitoring module for relay of the received radiation information to a central monitoring system. The radiation monitoring modules of the present invention allow long term monitoring of a tunnel's radiation levels with maintenance simply requiring replacement of a non-operational tunnel monitoring module by a robot.

Abstract: Shipping containers are networked for transferring data between the shipping containers. The shipping containers include sensors for detecting hazardous conditions associated with the shipping containers. The hazardous condition sensed by any shipping container on a ship is transmitted through the network to a satellite transmitter and/or a radio transmitter for reporting to a central database.

Abstract: In accordance with the principles of the present invention utilizing a first radiation monitoring module, radiation information associated with the first radiation monitoring module within a tunnel is wirelessly transmitted to a second radiation monitoring module. The second radiation monitoring module is able to receive radiation information from the first radiation monitoring module for relay of the received radiation information to a central monitoring system. The radiation monitoring modules of the present invention allow long term monitoring of a tunnel's radiation levels with maintenance simply requiring replacement of a non-operational tunnel monitoring module by a robot.

Abstract: A method is disclosed for depositing diamond film on a plurality of substrates, which comprises the steps of: providing a plasma beam containing atomic hydrogen and a carbonaceous component; providing a plurality of substrates, each of the substrates having a deposited surface, the substrates being arranged such that the beam impinges successively on a deposition surface of a first substrate and then on a deposition surface of a second substrate, the deposition surfaces of the first and second substrates being oriented with respect to each other at a non-zero angle.

Abstract: Apparatus is disclosed for depositing diamond film on a plurality of substrates, and includes: a plasma beam containing atomic hydrogen and a carbonaceous component, and a plurality of substrates, each of the substrates having a deposition surface, the substrates being arranged such that the beam impinges successively on a deposition surface of a first of the substrates and then on a deposition surface of a second of the substrates, the deposition surfaces of the first and second substrates being oriented with respect to each other at a non-zero angle.

Abstract: A deposition target medium is disclosed for use in CVD of a diamond film wherein a hydrocarbon gas and atomic hydrogen are utilized in depositing the diamond film on the deposition target medium, which comprises a substrate having a Young's modulus of less than 50 GPa; and a coating on said substrate, said coating comprising a binder and diamond grit, said binder comprising a glass-forming oxide.

Abstract: A plasma jet CVD system includes gas injectors and a stand-off ring. The gas injectors have outlet holes preferably flared to approach the expansion angle of the injected jet, thereby keeping the holes substantially free from entrained atomic hydrogen. The injectors are arranged counter-rotational to the swirl of the primary jet, providing a more uniform mixture of hydrocarbons and atomic hydrogen. The stand-off ring provides vents for cooler gases to enter the nozzle, thereby decreasing the overall temperature of the injectors and decreasing the temperature gradient experienced by the injectors, thereby preventing injector cracking. In addition the vents reduce shear, thereby increasing jet velocity and increasing the deposition rate for the coating.

Abstract: A method for producing a diamond film is disclosed, which comprises the steps of providing a substrate having a Young's modulus of less than 50 GPa; applying a coating material comprising a glass-forming oxide binder and diamond grit to the substrate; and depositing said diamond film on said coating by CVD.

Abstract: A gas injection disc is provided which includes an outer ring and a tubular modular insert which slips into the outer ring. The outer ring is provided with an inner bore, a ring-shaped plenum located around the inner bore, an outer gas sealing surface around the plenum, and two gas feed paths extending from the periphery of the outer ring to the plenum. The gas feed paths are each provided with a gas feed attachment for coupling gas supply tubes thereto. The insert is provided with a plurality of radially aligned injectant holes, an inner gas sealing surface, and an axial bore. The insert is seated in the inner bore of the outer ring such that the inner and outer gas sealing surface face each other with a small gap provided therebetween which enables the insertion of the insert into the inner bore. The insert thereby substantially encloses the plenum, and the injectant holes are aligned with the plenum to receive injectant gases and direct the injectant gases into the axial bore of the insert.

Abstract: A radiation and regeneratively cooled arc jet device includes improvements designed to provide higher gas enthalpy operation for thin diamond film deposition. A series of circumferentially and axially spaced gas injection holes are provided in the cylindrical inner walls of the arc chamber between a cathode and anode. This arc chamber wall is fabricated from a material having a high thermal shock parameter. The ratio of the spacing of the injection holes within each row as compared to the chamber diameter is set within a specific range. In the circumferential direction, a multiplicity of axial rows of holes are provided and spaced equally about the circumference of the chamber. The annular anode is isolated at the open end of the arc chamber by an insulator having a high thermal shock parameter, to conduct anticipated heat loads without mechanical failure.

Abstract: A method for depositing a substance, such as diamond, by plasma deposition on a substrate mounted over a madrel cooled by a heat exchange, comprising the steps of: determining the heat flux at the deposition surface of the substrate; providing, between said mandrel and said substrate, a spacer having a thermal conductance in its thickness direction that varies in accordance with said determined heat flux; and depositing said substance on said substrate by said plasma deposition.

Abstract: A method for depositing a substance, such as diamond, on a surface of a substrate with temperature control, which comprises the steps of providing a cooling block having a surface that is cooled by heat exchange; supporting said substrate from said cooling block so that the bottom surface of said substrate is spaced from said cooling block surface by a gap, the size of said gap being in the range of 0.01 cm to 0.30 cm; providing a gas in said gap; and depositing said substance on the top surface of said substrate, whereby heat, resulting from said depositing of said substance, flows by conduction across said gap from said substrate to said cooling block.

Abstract: An apparatus for depositing a substance with temperature control includes, in one embodiment: a mandrel rotatable on an axis; a spacer mounted on the mandrel; a substance mounted on the spacer; a plasma, containing constituents of the substance being deposited, directed toward the substrate; the spacer having a thermal conductance in its thickness direction that varies with radial dimension.

Abstract: The substrate in a plasma jet deposition system is provided with structural attributes, such as apertures and/or grooves, that facilitate efficient deposition. Groups of substrates are arranged with respect to the plasma beam in a manner which also facilitates efficient deposition. In addition to increasing the portion of the plasma beam volume which contacts the substrate surface or surfaces, it is advantageous to provide for the efficient evacuation of spent fluids away from the substrate so that fresh plasma containing the operative species can easily and continuously contact the substrate surface.

Abstract: The substrate in a plasma jet deposition system is provided with structural attributes, such as apertures and/or grooves, that facilitate efficient deposition. Groups of substrates are arranged with respect to the plasma beam in a manner which also facilitates efficient deposition. In addition to increasing the portion of the plasma beam volume which contacts the substrate surface or surfaces, it is advantageous to provide for the efficient evacuation of spent fluids away from the substrate so that fresh plasma containing the operative species can easily and continuously contact the substrate surface.

Abstract: The disclosure is directed to a method for depositing a substance, such as synthetic diamond. A plasma beam is produced, and contains the constituents of the substance to be deposited. A substrate is provided, and has a surface in the path of the beam, the area of said surface being substantially larger than the cross-sectional area of the beam impinging on the surface. Repetitive motion is introduced between the substrate and the beam as the substance is deposited on the surface. The substrate, the beam, or both can be moved. Spinning of the substrate, with the beam non-concentric thereon, is one of the disclosed techniques.

Abstract: In a first embodiment of an improved diamond deposition cell, a chamber is evacuated to a low pressure and a graphite element in the chamber is heated to a selected high temperature and heats a substrate positioned within the chamber spaced by a selected gap from the graphite body to a selected lower temperature. Hydrogen or a mixture of hydrogen and hydrocarbon gas is admitted to the chamber and part of the hydrogen reacts with the hot graphite body to form atomic hydrogen and hydrocarbon gasses. Hydrogen and hydrocarbon gasses cycle repeatedly across the gap between the facing surfaces of the body and the substrate in the kinetic regime resulting in a net transfer of carbon to the substrate and its deposition as diamond crystals or film on the substrate. In a second embodiment, the graphite body is heated by combusting gasses in a cavity therein.

Abstract: Embodiments of magnetoplasmadynamic processors are disclosed which utilize specially designed cathode-buffer, anodeionizer and vacuum-insulator/isolator structures to transform a working fluid into a beam of fully ionized plasma. The beam is controlled both in its size and direction by a series of magnets which are mounted in surrounding relation to the cathode, anode, vacuum insulator/isolators and plasma beam path. As disclosed, the processor may be utilized in many diverse applications including the separation of ions of differing weights and/or ionization potentials and the deposition of any ionizable pure material. Several other applications of the processor are disclosed.