초록 ▼

The present invention relates to a methods and apparatus for monitoring objects, such as golf balls, in flight. The methods include providing a plurality of cameras with different orientations with respect to the object's flight path. For example, two cameras can be located downstream of the object'

The present invention relates to a methods and apparatus for monitoring objects, such as golf balls, in flight. The methods include providing a plurality of cameras with different orientations with respect to the object's flight path. For example, two cameras can be located downstream of the object's initial position on either side of the flight path and a plurality of other cameras can be located upstream of the object's initial position on one side of the flight path. With such an arrangement, data in three-dimensions can be obtained on the object. Furthermore, the methods can include providing an object with a material for emitting light when excited. For example, a phosphorescent material can be used to provide an object with high contrast as compared to a background that the object is imaged against. With such materials, the methods can include filtering so that the cameras use only light emitted by the object to form images of the object that will be analyzed. The present invention also relates to apparatus incorporating the components used in these methods.

대표청구항 ▼

The present invention relates to a methods and apparatus for monitoring objects, such as golf balls, in flight. The methods include providing a plurality of cameras with different orientations with respect to the object's flight path. For example, two cameras can be located downstream of the object'

The present invention relates to a methods and apparatus for monitoring objects, such as golf balls, in flight. The methods include providing a plurality of cameras with different orientations with respect to the object's flight path. For example, two cameras can be located downstream of the object's initial position on either side of the flight path and a plurality of other cameras can be located upstream of the object's initial position on one side of the flight path. With such an arrangement, data in three-dimensions can be obtained on the object. Furthermore, the methods can include providing an object with a material for emitting light when excited. For example, a phosphorescent material can be used to provide an object with high contrast as compared to a background that the object is imaged against. With such materials, the methods can include filtering so that the cameras use only light emitted by the object to form images of the object that will be analyzed. The present invention also relates to apparatus incorporating the components used in these methods. 1. A connector assembly for connecting first pairs of wire leads for a first cable to corresponding second pairs of wire leads of a second cable, comprising: a terminal housing structure comprising first and second terminal housing parts which are substantially identical to each other and comprise a first base on said first part, and a second base on said second part facing in a direction opposite the first base said parts being latched together; first pairs of connector terminals configured to connect with the first pairs of wire leads of the first cable; second pairs of connector terminals configured to connect with the second pairs of wire leads of the second cable; a wiring board captured between the first and the second bases of the terminal housing structure, wherein the wiring board has sets of four spaced conductive terminal openings formed at locations in the board corresponding to the connector terminal location, the first pairs of connector terminals are mounted on one side of the board in corresponding first pairs of terminal openings of each set, the second pairs of connector terminals are mounted on the opposite side of the board in corresponding second pairs of terminal openings of each set, and conductors are arranged to connect the first and the second pairs of the terminal openings within each set to one another; wherein a given pair of the first pairs of wire leads can be spliced to a corresponding pair of the second pairs of wire leads via the connector terminals associated with one of the sets of terminals in the wire board; a partition wall extending upwardly and medially from each of said bases to separate at least one of said pairs of conductor terminals from another one of said pairs of conductor terminals wherein said wall is dimensional to coating and control lead dress among the first and second pairs of wire leads; and the sets of terminal openings are spaced apart sufficiently from one another to avoid crosstalk between the connector terminals mounted in adjacent sets of terminal openings. 2. A connector assembly according to claim 1, wherein at least some of the connector terminals are insulation displacement connector (IDC) terminals. 3. A connector assembly according to claim 1, wherein the partition wall has a vertical slot, and the axis of the slot coincides substantially with the center of each of the first and second bases. 4. A connector assembly according to claim 1, wherein the wiring board is generally rectangular in shape having first, second, third, and fourth corners, the first two pairs of connector terminals are disposed on one side of the wiring board in the vicinity of the first and second corners of the wiring board, and the second two pairs of connector terminals are disposed on the opposite side of the wiring board in the vicinity of third and fourth corners of the wiring board and said partition wall extends between said first two pairs of connector terminals and said second two pairs. 5. A connector assembly according to claim 1, wherein pairs of the connector terminals which are arranged to connect with the pairs of the wire leads of the first and the second cables, are coupled to one another to provide an impedance match with said pairs of wire leads. 6. A connector assembly as claimed in claim 1 including fastening members associated with the first and the second terminal housing parts for joining the terminal housing parts to form said terminal housing structure. 7. A connector assembly according to claim 6, wherein each of the terminal housing parts is formed with a first pair of said fastening members and a second pair of said fastening members, and the first pair of fastening members on one terminal housing part are configured to engage the second pair of fastening members on the other terminal housing part when the housing parts are joined to one another. 8. A connector assembly according to claim 1, wherein the terminal housing structure includes terminal guards extending upward from each of the first and second bases, and the terminal guards have vertical channels that open through the bases to receive a wire-connecting portion of each of the first and the second pairs of connector terminals. 9. A connector assembly according to claim 8, wherein at least some of the connector terminals are IDC terminals having insulation cutting grooves, and the terminal guards have vertical grooves formed to coincide with the insulation cutting grooves of the IDC terminals received in the guards so that the pairs of wire leads of the first and second cables can be drawn down in the grooves of the terminal guards and connect electrically to the IDC terminals in the guards.