Abstract: A system and method for integrated table motion includes a device. The device includes an articulated arm having joints and a distal portion distal to the joints and a control unit. To support integrated motion with a separate table, the control unit is configured to receive a table movement request from the table, determine whether allowing the table movement request would result in a first joint of the joints being at a range of motion limit, allow the table to perform the table movement request based on determining that allowing the table to perform the table movement request would not result in the first joint being at the range of motion limit, track movement of the table due to performing the table movement request, and maintain, using the joints and based on the tracked movement, a position and/or an orientation of the distal portion relative to the table.

Abstract: A computer-assisted medical device including a first joint set on an articulated arm, a second joint set on the articulated arm, and a control unit coupled to the first joint set and second joint set. The control unit determines a disturbance to the first joint set caused by a release of one or more brakes and compensates for the disturbance using the second joint set to reduce motion to a position of a point of interest. In some embodiments, the control unit compensates for the disturbance by determining an initial position for the point of interest with respect to a reference point, determining a predicted motion for the point of interest based on the disturbance to the first joint set, and sending a drive command to the second joint set to move the point of interest in a direction opposite to the predicted motion.

Abstract: A system and method for an integrated surgical table includes a medical device including an articulated arm having one or more first and second joints and a control unit. The articulated arm has at least a cannula, an endoscope, or an instrument mounted distal to the first and second joints, which is inserted into a patient at a body opening. The control unit unlocks the first joints, receives a surgical table movement request, determines whether the surgical table movement request should be granted, allows the surgical table to perform the requested movement based on the determining, uses the first joints to allow the articulated arm to track movement of the body opening based on forces applied by a body wall at the body opening, and compensates for changes in a pose of the cannula, endoscope, or instrument due to the tracked movement by performing compensating motions in the second joints.

Abstract: A system and method for rapid halt and recovery of motion deviations in a medical device includes a computer-assisted medical device having a first repositionable arm having one or more first repositionable elements, a second repositionable arm having one or more second repositionable elements, and a control unit communicably coupled to the first and second repositionable arms. The control unit is configured to control motion of the first repositionable arm and the first end effector based on a desired motion, monitor an actual motion of the first repositionable arm and the first end effector, determine whether the actual motion deviates from the desired motion by more than a predetermined threshold, and halt motion of the first repositionable arm and the first end effector, or of the second repositionable arm and the second end effector, when the actual motion deviates from the desired motion by more than the predetermined threshold.

Abstract: A system and method of maintaining a tool position and orientation for a computer-assisted medical device include a device with an articulated structure including a plurality of joints and a control unit. The articulated structure is configured to support a tool distal to the joints. The control unit is configured to determine an initial position and orientation of the tool prior to movement of a first joint, determine, while the first joint is moving, a current position and orientation of the tool, determine a difference between the current and the initial position and orientation, and drive at least a second joint based on the difference to maintain a position and orientation of the tool at the initial position and orientation. In some embodiments, the position and orientation of the tool are maintained relative to a reference coordinate frame based on a cause of the moving of the first joint.

Abstract: A system and method of maintaining a tool pose for a computer-assisted medical device with an articulated arm including one or more first joints and one or more second joints, a tool distal to the first joints and the second joints, and a control unit coupled to the first joints and the second joints. The control unit maintains a pose of the tool during movement of the first joints using the second joints by determining a reference coordinate frame for the tool, determining a reference transform of the tool in the reference coordinate frame prior to the movement of the first joints, determining an actual transform of the tool in the reference coordinate frame while the first joints are being moved, determining differences between the reference transform and the actual transform, and maintaining the pose of the tool by driving the second joints based on the differences.

Abstract: A system and method of monitoring control points during reactive motion includes a computer-assisted medical device. The computer-assisted medical device includes one or more articulated arms each having a control point and a control unit coupled to the one or more articulated arms. The one or more articulated arms and corresponding control points are configured to track movement of a surgical table. The control unit monitors a spatial configuration of the one or more control points by determining an expected spatial configuration of the one or more control points during the movement of the surgical table, determining an actual spatial configuration of the one or more control points during the movement of the surgical table, and determining a difference between the expected spatial configuration and the actual spatial configuration.

Abstract: A system and method for an integrated surgical table includes a medical device including an articulated arm having one or more first and second joints and a control unit. The articulated arm has at least a cannula, an endoscope, or an instrument mounted distal to the first and second joints, which is inserted into a patient at a body opening. The control unit unlocks the first joints, receives a surgical table movement request, determines whether the surgical table movement request should be granted, allows the surgical table to perform the requested movement based on the determining, uses the first joints to allow the articulated arm to track movement of the body opening based on forces applied by a body wall at the body opening, and compensates for changes in a pose of the cannula, endoscope, or instrument due to the tracked movement by performing compensating motions in the second joints.

Abstract: A computer-assisted medical device including a first joint set on an articulated arm, a second joint set on the articulated arm, and a control unit coupled to the first joint set and second joint set. The control unit determines a disturbance to the first joint set caused by a release of one or more brakes and compensates for the disturbance using the second joint set to reduce motion to a position of a point of interest. In some embodiments, the control unit compensates for the disturbance by determining an initial position for the point of interest with respect to a reference point, determining a predicted motion for the point of interest based on the disturbance to the first joint set, and sending a drive command to the second joint set to move the point of interest in a direction opposite to the predicted motion.

Abstract: A computer-assisted medical device includes an articulated arm with a plurality of joints and a control unit coupled to the articulated arm. The control unit is configured to send a command to a plurality of brakes in the articulated arm to begin a release of the plurality of brakes in a predetermined staggered manner. In some embodiments the predetermined staggered manner prevents the simultaneous release of the plurality of breaks. In some examples, the predetermined staggered manner causes each brake in the plurality of brakes to release within a predetermined time of each other. In some embodiments, the first predetermined staggered manner causes each brake in the first plurality of brakes to release within a predetermined time of each other. In some embodiments, the first predetermined staggered manner causes each brake in the first plurality of brakes to begin a gradual release within a predetermined time of each other.

Abstract: A system and method of maintaining a tool pose for a computer-assisted medical device with an articulated arm including one or more first joints and one or more second joints, a tool distal to the first joints and the second joints, and a control unit coupled to the first joints and the second joints. The control unit maintains a pose of the tool during movement of the first joints using the second joints by determining a reference coordinate frame for the tool, determining a reference transform of the tool in the reference coordinate frame prior to the movement of the first joints, determining an actual transform of the tool in the reference coordinate frame while the first joints are being moved, determining differences between the reference transform and the actual transform, and maintaining the pose of the tool by driving the second joints based on the differences.