James M Linick, Age 939123 Strada Pl UNIT 7505, Naples, FL 34108

6722609, Apr 20, 2004

Feb 13, 1998

09/023118

James M. Linick - Naples FL, 34108

F42B 1501

244 321, 244 322, 244 31

An device for correcting the in-flight trajectory of a munition consists of an impulse motor assembly body. The slug or multiple slugs and propellant(s) are located within the impulse motor assembly body. When a trajectory correction is desired and required, the individual impulse motor propellants are activated and fired, and the slug or multiple slugs are propelled out of the in-flight munition at a specific time and a specific angle on or near the gravimetric center of gravity of the in-flight munition. The reactive forces created by the explosion of the(se) heavy metal slugs does, by equal and opposite reaction, create a corrective vector and thereby does cause a correction in the trajectory of the in-flight munition.

4407464, Oct 4, 1983

Jul 27, 1981

6/286767

James Linick - Tampa FL

F41G 726

244 313

A steering mechanism is described for use in conjunction with a thermal imaging system. The steering mechanism comprises a pair of prisms which are positioned serially in front of the scanning mechanism of the thermal imaging system. The prisms are individually rotated by a motor means. A position encoder is connected to each of the prisms to provide feedback position information to a search computer which controls the rotation of the prisms. The refraction of the thermal image produced by the rotating prisms enables the scanning mechanism of the thermal imaging system to search in any searching pattern within a variable field of regard in the field of search of the steering mechanism. The steering mechanism may also function to boresight a laser on the same target viewed by the thermal imaging system. In one embodiment, the laser comprises a pulsed-type laser whose pulsed laser beam is transmitted through the prisms onto an acquired target.

D247615, Mar 28, 1978

Jan 21, 1976

5/650990

James M. Linick - Tampa FL

D1101

D11 96

5647558, Jul 15, 1997

May 1, 1995

8/431761

James Linick - Naples FL

Bofors AB - Karlskoga

F41G 700

244 311

A system for controlling the placement of a gun launched projectile adapted with a radial impulse motor incorporated into the projectile for imparting a thrust subsequent to launching and a receiver incorporated into the projectile for targeting information for determining the projectile trajectory and the projectile roll rate, roll position, and pitch, i. e. , vertical reference; and a computer linked to the receiver and the radial impulse motor for determining the projectile trajectory and the projectile roll rate, roll position, and vertical reference time after launch of the projectile and angle of corrective vector to ignite the radial impulse motor to affect the trajectory of the projectile to land the projectile on a desired target.

5131602, Jul 21, 1992

Jun 13, 1990

7/537296

James M. Linick - La Quinta CA

F41G 728

244 314

The present invention relates to ground-based electromechanical search and communications apparatus used in conjunction with airborne communications apparatus. The ground-based apparatus maintains contact with and determines the precise location of the airborne apparatus within a defined space. Additionally, the airborne apparatus may receive data from a satellite system as to its inertial coordinates within object space. The apparatus of the invention includes a ground-based electronically and/or mechanically controlled antenna, an integral transmitter and computer and an airborne transceiver with an integral antenna and computer. The airborne transceiver transmits to, and on occasion receives, discrete commands from the ground-based apparatus. The ground-based apparatus via transmissions received from the airborne apparatus, will be able to determine the precise location in object space of the airborne apparatus and extrapolate its future location. Additionally, the ground-based apparatus can issue commands to the airborne apparatus to alter its path of flight.

4453087, Jun 5, 1984

Jul 27, 1981

6/286768

James Linick - Tampa FL

H01J 3149
G01J 100

250334

A scanning mechanism for a fast framing thermal imaging system such as a FLIR is disclosed. The scanning mechanism comprises two prisms which are canted with respect to one another and positioned in front of the final image forming lens of the FLIR. The two prisms are precisely counter-rotated with respect to one another by a drive train assembly and motor means. An annular timing disc is positioned about one of the prisms to enable an optically sensitive transducer to sense the rotational position of the prisms. The counter-rotating prisms function to enable the detector array of the FLIR to dissect the thermal image in a 2:1 interlacing technique.

5988562, Nov 23, 1999

Nov 5, 1997

8/964792

James M. Linick - Naples FL

F41G 700
B64C 1318

244 321

A system and method for determining the angular orientation of a body moving in object space. The invention is usable to detect and identify the angular orientation of the body relative to the theoretical plane of gravity and thereby relative to any other theoretical plane between zero and three-hundred sixty degrees therefrom. The invention is operable regardless of whether the body is rotating with an angular velocity, either natural and/or induced. The invention may employ one or more analog and/or digital sensors. The analog sensor may be an accelerometer. The system may be used to provide real-time orientation data to permit the body to be guided or directed towards a desired destination or simply to permit the orientation of the body to be known, controlled or varied as desired.