Abstract: The embodiments described herein are directed to generating a predictive market indicator for an asset. In one embodiment, a computer-implemented method comprises receiving proposed trades that comprise an asset and a trade recommendation; calculating a proposed trade alpha for the proposed trades; calculating a proposed trade alpha average for the asset based on a subset of the proposed trades comprising the asset; determining an asset alpha for a plurality of assets based on the proposed trade alpha average associated with the assets; generating a ranking of the assets based on the asset alpha associated with the asset; dividing the ranking into a number of segments; determining an indicator number to assign to the assets based on a rank position associated with the assets and the number of segments associated with the ranking; and encoding for display a user interface that specifies the indicator number corresponding with the asset.

Abstract: A method and robot-based automation system are provided for cryogenic crystal sample mounting, for example, for use for cryogenic crystal sample mounting in the x-ray crystallography station at an x-ray source. The system includes a robot arm carrying a handset. The handset includes a pair of elongated fingers for sample mounting, and each finger carrying a set of strain gauge arrays for providing force sensing. A slim finger design allows a sample mounting process with no interference with the beam stop, cryostreem and x-ray detectors. The handset can detect the contact force intensity and direction; provide a precise gripping action; and feel the results of the gripping. The finger design incorporates a mechanism to maintain the sample temperature well below the cryogenic safety margin for the crystal viability. A Dewar container is provided with an ice control system and liquid nitrogen flow control. A triangular sample magazine maximizes the Dewar space usage.

Abstract: A method and robot-based automation system are provided for cryogenic crystal sample mounting, for example, for use for cryogenic crystal sample mounting in the x-ray crystallography station at an x-ray source. The system includes a robot arm carrying a handset. The handset includes a pair of elongated fingers for sample mounting, and each finger carrying a set of strain gauge arrays for providing force sensing. A slim finger design allows a sample mounting process with no interference with the beam stop, cryostreem and x-ray detectors. The handset can detect the contact force intensity and direction; provide a precise gripping action; and feel the results of the gripping. The finger design incorporates a mechanism to maintain the sample temperature well below the cryogenic safety margin for the crystal viability. A Dewar container is provided with an ice control system and liquid nitrogen flow control. A triangular sample magazine maximizes the Dewar space usage.