Abstract: A robot arm comprising a joint mechanism for articulating one limb of the arm relative to another limb of the arm about two non-parallel rotation axes, the mechanism comprising: an intermediate carrier attached to a first one of the limbs by a first revolute joint having a first rotation axis and to a second one of the limbs by a second revolute joint having a second rotation axis; a first drive gear disposed about the first rotation axis, the first drive gear being fast with the carrier; a second drive gear disposed about the second rotation axis, the second drive gear being fast with the second one of the limbs; a first drive shaft for driving the first drive gear to rotate about the first rotation axis, the first drive shaft extending along the first one of the limbs and having a first shaft gear thereon, the first shaft gear being arranged to engage the first drive gear; a second drive shaft for driving the second drive gear to rotate about the second rotation axis, the second drive shaft extending along

Abstract: A method of real-time image correction of a video stream from a surgical endoscope of a surgical robotic system. The video stream comprises a sequence of images. The method comprises: for an image in the sequence of images, identifying a plurality of regions, each region having a different range of values of at least one image property to another region; applying a mask to the image which applies a region-specific modification to each region, each region-specific modification modifying the at least one image property of that region; deriving data from the surgical robotic system; determining a relationship between features in the image from the derived data; modifying the mask for a predicted relationship between the features at the time of a subsequent image in the video stream; and applying the modified mask to the subsequent image in the video stream.

Abstract: A surgical robot comprising a base and an arm extending from a proximal end attached to the base to a distal end attachable to a surgical instrument via a series of links interspersed by articulations. The arm comprises a receiver, a proximity sensor and a controller. The receiver is configured to receive data from the surgical instrument over a short-range wireless communications link with the surgical instrument. The proximity sensor is configured to detect the proximal presence of the surgical instrument. The controller is configured to respond to the proximity sensor detecting the proximal presence of the surgical instrument by enabling the short-range wireless communications link between the receiver and a transmitter of the surgical instrument to be established.

Abstract: A surgical robotic arm drape for enveloping a portion of a robotic arm, the drape comprising: an exterior sheet defining an elongate cavity for housing a portion of a robotic arm; and a duct defined at least in part by material integral with the exterior sheet, the duct defining a fluid path along the longitudinal extent of the cavity to channel fluid to or from a robotic arm housed within the cavity.

Abstract: A surgical robotic system for augmenting a representation of a surgical site at which a surgical procedure can be carried out, the system comprising: a display configured to display part or all of a representation of at least a portion of a surgical site; a controller comprising an input device, whereby the input device can control an indicator on the display, the controller being configured to output an augmentation signal in response to user input relating to the representation; and a processor configured to receive the augmentation signal and, in response to the received augmentation signal, to augment the representation of the surgical site.

Abstract: A robot arm comprising a joint mechanism for articulating one limb relative to another limb about two non-parallel rotation axes, the mechanism comprising: an intermediate carrier attached to a first one of the limbs by a first revolute joint having a first rotation axis and to a second one of the limbs by a second revolute joint having a second rotation axis; a first drive gear disposed about the first rotation axis and fast with the carrier, whereby rotation of the carrier relative to the first limb about the first rotation axis can be driven; a second drive gear disposed about the second rotation axis and fast with the second one of the limbs, whereby rotation of the second one of the limbs about the second rotation axis relative to the carrier can be driven; at least one of the first and second drive gears being a sector gear.

Abstract: A surgical robotic component comprising an articulated terminal portion, the terminal portion comprising: a distal segment having an attachment connected thereto, an intermediate segment, and a basal segment whereby the terminal portion is attached to the remainder of the surgical robotic component. The terminal portion further comprises a first articulation between the distal segment and the intermediate segment, the first articulation permitting relative rotation of the distal segment and the intermediate segment about a first axis, and a second articulation between the intermediate segment and the basal segment, the second articulation permitting relative rotation of the intermediate segment and the basal segment about a second axis.

Abstract: Systems, apparatuses, and methods for implementing graphics pipeline optimizations are disclosed. A user interface (UI) is generated to allow a user to analyze shaders and determine resource utilization on any of multiple different target graphic devices. The UI allows the user to manipulate the state associated with the target graphics device for a given graphics pipeline. After being edited by the user, the state of the graphics pipeline is converted into a textual representation and input into a meta-app. The meta-app creates an application programming interface (API) construct from the shader source code and textual representation of the state which is compiled by a driver component into machine-level instructions. Also, resource usage statistics are generated for a simulated run of the graphics pipeline on the target graphics device. Then, the machine-level instructions and resource usage statistics are displayed in the UI for the user to analyze.

Abstract: A robotic surgical instrument comprising a shaft, an articulated section and a drive mechanism. The articulated section extends from the shaft and terminates at its distal end in a tip. The tip has an attachment for an end effector. The drive mechanism drives the articulated section via flexible driving elements thereby altering the angular orientation of the tip relative to the shaft. The drive mechanism is controlled so as to always fully compress the articulated section along at least one extent by which the articulated section connects the tip and the shaft whilst driving the articulated section from any one configuration to any other configuration. The drive mechanism constrains movement of the articulated section so as to permit the tip to move with two degrees of rotational freedom and no degrees of translational freedom relative to the shaft.

Abstract: This disclosure relates generally to downhole tools and, more particularly, embodiments related to incorporation of a pumpdown relief valve into a downhole tool that is responsive to changes in differential fluid pressure along a downhole tool. Disclosed is a system for pumpdown regulation in a wellbore. The system may include a downhole tool having a tool body with a tool head that is attachable to a line, the line being attached to a point at a surface of the wellbore. The system may further include a pumpdown relief valve coupled to the tool body that is operable to allow fluid to bypass the downhole tool in direct response to a differential fluid pressure across a length of the downhole tool.

Abstract: A robotic system comprises two robots and a control unit. Each robot has a base and an arm extending from the base to an attachment for an instrument. Each arm comprises a plurality of joints whereby the configuration of the arm can be altered. Each robot comprises a driver for each joint configured to drive the joint to move, and position and torque sensors. The control unit controls the drivers in dependence on inputs from the sensors.

Abstract: A control system for a surgical robotic system, the surgical robotic system comprising a remote surgeon console and an articulated surgical robot arm comprising a series of joints extending from a base to a terminal end for attaching to an articulated surgical instrument. The control system comprises a central controller communicatively coupled to and remotely located from an arm controller of the surgical robot arm, the central controller also communicatively coupled to a surgeon input device of the surgeon console.

Abstract: A surgical robot comprising a base and an arm extending from a proximal end attached to the base to a distal end attachable to a surgical instrument via a series of links interspersed by articulations. The arm comprises a receiver, a proximity sensor and a controller. The receiver is configured to receive data from the surgical instrument over a short-range wireless communications link with the surgical instrument. The proximity sensor is configured to detect the proximal presence of the surgical instrument. The controller is configured to respond to the proximity sensor detecting the proximal presence of the surgical instrument by enabling the short-range wireless communications link between the receiver and a transmitter of the surgical instrument to be established.

Abstract: Methods and systems for automatically augmenting an endoscope video for a task based on status data that describes the status of a surgical robot system that was used to at least partially perform the task. The system comprises an event detector and an augmenter. The event detector is configured to: receive the status data; and identify one or more patterns in the status data that indicate an event occurred during the task. The augmenter is configured to receive an endoscope video captured during the task, the endoscope video being time synchronised with the status data; and in response to the event detector identifying a pattern in the status data that indicates an event occurred, automatically augment metadata that forms part of or is associated with the endoscope video with information identifying the event and the time the event occurred with respect to the endoscope video.

Abstract: Described herein are techniques for reducing control flow divergence. The method includes identifying two or more shader programs having commonalities, generating a merged shader program that implements functionality of the identified two or more shader programs, wherein the functionality implemented includes a first execution option for a first shader program of the two or more shader programs and a second execution option for a second shader program of the two or more shader programs, modifying shader programs that call the first shader program to instead call the merged shader program and select the first execution option, modifying shader programs that call the second shader program to instead call the merged shader program and select the second execution option.

Abstract: A control system for controlling manipulation of a surgical instrument in response to manipulation of a remote surgeon input device at a remote surgeon's console, the surgical instrument being supported by a surgical robot arm, the surgical instrument comprising an end effector connected to a distal end of a shaft by an articulated coupling, the articulated coupling comprising one or more joints enabling the end effector to adopt a range of attitudes relative to the distal end of the shaft, the control system configured to: receive a command from an input actuated by a user to straighten the surgical instrument; and in response to the received command, to command driving forces to be applied to joint(s) of the articulated coupling to drive the instrument to adopt a predetermined configuration in which the profile of the end effector is most closely aligned with the profile of the distal end of the shaft.

Abstract: A control system for controlling a surgical robot by a surgeon console remote from the surgical robot, the control system being configured to: receive one or more state signal associated with a plurality of instruments, each of the plurality of instruments being attachable to the surgical robot, the one or more state signal indicating a selectability of each of the plurality of instruments for control by the surgeon console, and a control mode of each of the plurality of instruments from a group of modes, the group of modes comprising a manipulation mode in which an instrument of the plurality of instruments is controllable by the surgeon console, and a selection mode in which an instrument of the plurality of instruments is selectable for control by the surgeon console; determine a graphical arrangement of icons for display in dependence on the received one or more state signal, where each icon represents a respective one of the plurality of instruments, and output a display signal to cause the graphical arr

Abstract: A locator of a surgical port of a surgical robot system, the surgical robot system comprising an instrument attached to a robot arm, the instrument having an instrument shaft able to pass through the surgical port to a surgical site, the locator comprising: an interface configured to couple to the surgical port; a mechanism configured to permit relative linear and/or rotational motion of the interface and the instrument shaft; and a controller comprising a processor operable to estimate the position of a part of the robot arm, the controller configured to control the mechanism in dependence on the estimated position of the part of the robot arm such that as the robot arm retracts the instrument from the patient, the locator moves the port away from the robot arm and provides a reaction force to keep the port in place.

Abstract: A method and a system for tuning a pad. The method may comprise disposing a downhole tool into a borehole, configuring the pad in a first configuration, taking a first measurement of the formation in the first configuration, configuring the pad in a second configuration, taking a second measurement of the formation in the second configuration, determining a tuning coefficient to reduce a tool body effect in the first measurement and the second measurement, computing a first weighted measurement from the tuning coefficient and the first measurement, computing a second weighted measurement from the tuning coefficient and the second measurement, and computing a tuned impedance from a ratio of the first weighted measurement and the second weighted measurement. A system for determining a formation boundary may comprise a downhole tool, an arm, and a pad. The system may further comprise a conveyance and an information handling system.

Abstract: A control system configured to control manipulation of a surgical instrument in response to manipulation of a remote surgeon input device, the surgical instrument comprising opposable first and second end effector elements connected to a shaft by an articulated coupling, the articulated coupling comprising a first joint driveable by a first pair of driving elements so as to permit the first end effector element to rotate, and a second joint driveable by a second pair of driving elements so as to permit the second end effector element to rotate, the control system configured to: detect a change of configuration of the surgeon input device to a gripping configuration at time t; respond to the change of configuration of the surgeon input device to the gripping configuration by commanding gripping forces to be applied to the first and second pairs of driving elements, so as to cause the first and second end effector elements to rotate in opposing rotational directions towards each other with a gripping closing fo