Abstract: The present invention provides a method for the treatment of a patient comprising administering to the patient an initial dose of between about 1 mg and about 150 mg of a MAdCAM antagonist antibody. Biomarkers for assessing a patient's response to anti-MAdCAM treatment are also provided.

Abstract: A system and method for performing differential phase shift in a quantum network are disclosed. The method includes determining a quantum key distribution (QKD) configuration for a quantum signal comprising a series of pulses based on signal amplitude, signal pulse width and block length. Further, the method includes grouping pulses to generate quantum signal blocks based on determined QKD configuration. The method includes assigning a random label to each of the quantum signal block based on the determined quantum key distribution configuration. Also, the method includes performing hybrid phase modulation to each of the pulses individually and to each of the quantum signal blocks with a defined phase difference between the each of the pulses individually and each of the quantum signal blocks. The hybrid phase modulation is performed based on the assigned random label. Further, the method includes transmitting the hybrid phase modulated quantum signal blocks to receiving units.

Abstract: A system and method for securely distributing quantum keys in a network are disclosed. The method includes receiving request for generating pair of quantum keys between source quantum node and target quantum node. Further, the method includes generating first pair of quantum keys based on the request. The method includes transmitting the first pair of quantum keys to the intermediate quantum node using a first quantum link. The method further includes generating intermediate pair of quantum key based on events detected at the intermediate quantum node. The method further includes interleaving the intermediate pair of quantum key with the first pair of quantum keys. Also, the method includes generating a second pair of quantum keys comprising interleaved intermediate pair of quantum key and first pair of quantum keys. Further, the method includes encoding and transmitting the second pair of quantum keys to target quantum node using second quantum link.

Abstract: A system and method for securely distributing quantum keys in a network are disclosed. The method includes receiving request for generating pair of quantum keys between source quantum node and target quantum node. Further, the method includes generating first pair of quantum keys based on the request. The method includes transmitting the first pair of quantum keys to the intermediate quantum node using a first quantum link. The method further includes generating intermediate pair of quantum key based on events detected at the intermediate quantum node. The method further includes interleaving the intermediate pair of quantum key with the first pair of quantum keys. Also, the method includes generating a second pair of quantum keys comprising interleaved intermediate pair of quantum key and first pair of quantum keys. Further, the method includes encoding and transmitting the second pair of quantum keys to target quantum node using second quantum link.

Abstract: A system and method for performing differential phase shift in a quantum network are disclosed. The method includes determining a quantum key distribution (QKD) configuration for a quantum signal comprising a series of pulses based on signal amplitude, signal pulse width and block length. Further, the method includes grouping pulses to generate quantum signal blocks based on determined QKD configuration. The method includes assigning a random label to each of the quantum signal block based on the determined quantum key distribution configuration. Also, the method includes performing hybrid phase modulation to each of the pulses individually and to each of the quantum signal blocks with a defined phase difference between the each of the pulses individually and each of the quantum signal blocks. The hybrid phase modulation is performed based on the assigned random label. Further, the method includes transmitting the hybrid phase modulated quantum signal blocks to receiving units.

Abstract: A method for transmitting time information and quantum states on an optical medium is disclosed. The method includes transmitting information comprising a timing information and quantum states over a single wavelength on an optical medium. The method also includes receiving each transmitted information sequentially in the corresponding plurality of time slots at a receiver. The method also includes comparing each timing information received in the corresponding plurality of timeslots with timing information of a preceding hold over time slot of the plurality of time slots. The method also includes determining a time drift encountered at the receiver based on a compared result. The method also includes synchronising phase and frequency of the plurality of transmitted packets of the information based on minimization of determined time drift.

Abstract: Automatic generation of individual item listings from a bulk listing is described. Bulk listing data associated with a bulk listing is obtained from a storage device associated with a listing system. The bulk listing data is processed to extract individual item information for individual items of the bulk listing. A plurality of individual item listings for the individual items of the bulk listing are automatically generated by populating the individual item listings with the respective individual item information extracted from the bulk listing data. In one or more implementations, relisting predictions for the individual items of the bulk listing are automatically generated and displayed in a graphical user interface.

Abstract: The present invention provides a method for the treatment of a patient comprising administering to the patient an initial dose of between about 1 mg and about 150 mg of a MAdCAM antagonist antibody. Biomarkers for assessing a patient's response to anti-MAdCAM treatment are also provided.

Abstract: A method for transmitting time information and quantum states on an optical medium is disclosed. The method includes transmitting information comprising a timing information and quantum states over a single wavelength on an optical medium. The method also includes receiving each transmitted information sequentially in the corresponding plurality of time slots at a receiver. The method also includes comparing each timing information received in the corresponding plurality of timeslots with timing information of a preceding hold over time slot of the plurality of time slots. The method also includes determining a time drift encountered at the receiver based on a compared result. The method also includes synchronising phase and frequency of the plurality of transmitted packets of the information based on minimization of determined time drift.

Abstract: The present invention provides a method for the treatment of a patient comprising administering to the patient an initial dose of between about 1 mg and about 150 mg of a MAdCAM antagonist antibody. Biomarkers for assessing a patient's response to anti-MAdCAM treatment are also provided.

Abstract: The present invention provides a method for the treatment of a patient comprising administering to the patient an initial dose of between about 1 mg and about 150 mg of a MAdCAM antagonist antibody. Biomarkers for assessing a patient's response to anti-MAdCAM treatment are also provided.