Abstract: A method of targeting, which involves capturing a first video of a scene about a potential targeting coordinate by a first video sensor on a first aircraft; transmitting the first video and associated potential targeting coordinate by the first aircraft; receiving the first video on a first display in communication with a processor, the processor also receiving the potential targeting coordinate; selecting the potential targeting coordinate to be an actual targeting coordinate for a second aircraft in response to viewing the first video on the first display; and guiding a second aircraft toward the actual targeting coordinate; where positive identification of a target corresponding to the actual targeting coordinate is maintained from selection of the actual targeting coordinate.

Abstract: One or more embodiments described herein disclose methods and systems that are directed at providing enhanced privacy and security to distributed ledger-based networks (DLNs) via the implementation of zero-knowledge proofs (ZKPs) in the DLNs. ZKPs allow participants of DLNs to prove ownership of accounts on the DLNs without having to necessarily reveal private information such as the private key of the account publicly. As such, the disclosed methods and systems directed at the ZKP-enabled DLNs provide privacy to participants of the DLNs while still allowing the DLNs to remain as consensus-based networks.

Abstract: One or more embodiments described herein disclose methods and systems that are directed at providing enhanced privacy and security to distributed ledger-based networks (DLNs) via the implementation of zero-knowledge proofs (ZKPs) in the DLNs. ZKPs allow participants of DLNs to prove ownership of accounts on the DLNs without having to necessarily reveal private information such as the private key of the account publicly. As such, the disclosed methods and systems directed at the ZKP-enabled DLNs provide privacy to participants of the DLNs while still allowing the DLNs to remain as consensus-based networks.

Abstract: The present invention relates to methods of diagnosing and/or prognosing proliferative disorders, especially brain cancers (e.g. gliomas). In particular, the present invention provides a means to conveniently detect malignant tumors merely by assaying or analyzing blood (particularly blood serum). Cytokines and/or angiogenesis factors in blood serum have been found to be surprisingly powerful at indicating the presence of brain cancers in a subject. Moreover, spectroscopic analysis, especially ATR-FTIR analysis, of a blood sample has been demonstrated to be surprisingly effective at producing a signature that can be correlated with the presence, extent, severity, or aggressiveness of malignant tumors in a subject.

Abstract: A splice device for electromagnetically sealing a junction or bond between a plurality of cables is provided. A first and second cable each has a conductive core wire, an inner insulation, a braided sleeve, and an insulating cover. The junction or bond fixes and electrically connects the core wire of the second cable to the core wire of the first cable. A plurality of ferrules overlays the braided sleeve and the insulating cover of the first cable and the braided sleeve and the insulating cover of the second cable. A plurality of ring collars overlays the plurality of ferrules and is fixed to the plurality of ferrules. A splice cover or shield overlays the first cable, second cable, plurality of ferrules, and plurality of ring collars and electromagnetically seals the junction/bond between the core wires of the first cable and the second cable.

Abstract: A splice device for electromagnetically sealing a junction or bond between a plurality of cables is provided. A first and second cable each has a conductive core wire, an inner insulation, a braided sleeve, and an insulating cover. The junction or bond fixes and electrically connects the core wire of the second cable to the core wire of the first cable. A plurality of ferrules overlays the braided sleeve and the insulating cover of the first cable and the braided sleeve and the insulating cover of the second cable. A plurality of ring collars overlays the plurality of ferrules and is fixed to the plurality of ferrules. A splice cover or shield overlays the first cable, second cable, plurality of ferrules, and plurality of ring collars and electromagnetically seals the junction/bond between the core wires of the first cable and the second cable.

Abstract: A splice device for electromagnetically sealing a junction or bond between a plurality of cables is provided. A first and second cable each has a conductive core wire, an inner insulation, a braided sleeve, and an insulating cover. The junction or bond fixes and electrically connects the core wire of the second cable to the core wire of the first cable. A plurality of ferrules overlays the braided sleeve and the insulating cover of the first cable and the braided sleeve and the insulating cover of the second cable. A plurality of ring collars overlays the plurality of ferrules and is fixed to the plurality of ferrules. A splice cover or shield overlays the first cable, second cable, plurality of ferrules, and plurality of ring collars and electromagnetically seals the junction/bond between the core wires of the first cable and the second cable.

Abstract: The present invention relates to methods of diagnosing and/or prognosing proliferative disorders, especially brain cancers (e.g. gliomas). In particular, the present invention provides a means to conveniently detect malignant tumours merely by assaying or analysing blood (particularly blood serum). Cytokines and/or angiogenesis factors in blood serum have been found to be surprisingly powerful at indicating the presence of brain cancers in a subject. Moreover, spectroscopic analysis, especially ATR-FTIR analysis, of a blood sample has been demonstrated to be surprisingly effective at producing a signature that can be correlated with the presence, extent, severity, or aggressiveness of malignant tumours in a subject.

Abstract: The present invention relates to methods of diagnosing and/or prognosing proliferative disorders, especially brain cancers (e.g. gliomas). In particular, the present invention provides a means to conveniently detect malignant tumours merely by assaying or analysing blood (particularly blood serum). Cytokines and/or angiogenesis factors in blood serum have been found to be surprisingly powerful at indicating the presence of brain cancers in a subject. Moreover, spectroscopic analysis, especially ATR-FTIR analysis, of a blood sample has been demonstrated to be surprisingly effective at producing a signature that can be correlated with the presence, extent, severity, or aggressiveness of malignant tumours in a subject.

Abstract: A splice device for electromagnetically sealing a junction or bond between a plurality of cables is provided. A first and second cable each has a conductive core wire, an inner insulation, a braided sleeve, and an insulating cover. The junction or bond fixes and electrically connects the core wire of the second cable to the core wire of the first cable. A plurality of ferrules overlays the braided sleeve and the insulating cover of the first cable and the braided sleeve and the insulating cover of the second cable. A plurality of ring collars overlays the plurality of ferrules and is fixed to the plurality of ferrules. A splice cover or shield overlays the first cable, second cable, plurality of ferrules, and plurality of ring collars and electromagnetically seals the junction/bond between the core wires of the first cable and the second cable.

Abstract: The present invention relates to methods of diagnosing and/or prognosing proliferative disorders, especially brain cancers (e.g. gliomas). In particular, the present invention provides a means to conveniently detect malignant tumours merely by as saying or analysing blood (particularly blood serum). Cytokines and/or angiogenesis factors in blood serum have been found to be surprisingly powerful at indicating the presence of brain cancers in a subject. Moreover, spectroscopic analysis, especially ATR-FTIR analysis, of a blood sample has been demonstrated to be surprisingly effective at producing a signature that can be correlated with the presence, extent, severity, or aggressiveness of malignant tumours in a subject.

Abstract: The present invention relates to methods of diagnosing and/or prognosing proliferative disorders, especially brain cancers (e.g. gliomas). In particular, the present invention provides a means to conveniently detect malignant tumours merely by assaying or analysing blood (particularly blood serum). Cytokines and/or angiogenesis factors in blood serum have been found to be surprisingly powerful at indicating the presence of brain cancers in a subject. Moreover, spectroscopic analysis, especially ATR-FTIR analysis, of a blood sample has been demonstrated to be surprisingly effective at producing a signature that can be correlated with the presence, extent, severity, or aggressiveness of malignant tumours in a subject.

Abstract: A wire harness assembly comprises a wire harness (22) and rotatable support (48) retaining the wire harness (22). (FIG. 2). The rotatable support (48) allows for the rotation of the wire harness (22) about at least one axis and may employ a clip (18) to permit its placement on a flange. (FIG. 2). The rotatable support is further connected to a vehicle component.