A method of displaying an operational parameter of a surgical system is disclosed. The method includes receiving, by a cloud computing system of the surgical system, first usage data, from a first subset of surgical hubs of the surgical system; receiving, by the cloud computing system, second usage data, from a second subset of surgical hubs of the surgical system; analyzing, by the cloud computing system, the first and the second usage data to correlate the first and the second usage data with surgical outcome data; determining, by the cloud computing system, based on the correlation, a recommended medical resource usage configuration; and displaying, on respective displays on the first and the second subset of surgical hubs, indications of the recommended medical resource usage configuration.

A computer-implemented method for collecting data within a facility is disclosed. The method includes receiving, by a computer system, perioperative data from a plurality of surgical devices located within the facility, the perioperative data associated with a plurality of surgical procedures performed in the facility; determining, by the computer system, procedural context data associated with the plurality of surgical procedures based at least in part on the perioperative data; aggregating, by the computer system, the perioperative data according to the procedural context data; and determining, by the computer system, trends associated with the surgical procedures performed in the facility according to the perioperative data and the procedural context data.

A computer-implemented method for collecting data within a facility is disclosed. The method includes receiving, by a computer system, perioperative data from a plurality of surgical devices located within the facility, the perioperative data associated with a plurality of surgical procedures performed in the facility; determining, by the computer system, procedural context data associated with the plurality of surgical procedures based at least in part on the perioperative data; aggregating, by the computer system, the perioperative data according to the procedural context data; and determining, by the computer system, trends associated with the surgical procedures performed in the facility according to the perioperative data and the procedural context data.

Surgical systems are disclosed. Surgical systems can include evacuation systems for evacuating smoke, fluid, and/or particulates from a surgical site. A surgical evacuation system can be intelligent and may include one or more sensors for detecting one or more properties of the surgical system, evacuation system, surgical procedure, surgical site, and/or patient tissue, for example.

Surgical systems are disclosed. Surgical systems can include evacuation systems for evacuating smoke, fluid, and/or particulates from a surgical site. A surgical evacuation system can be intelligent and may include one or more sensors for detecting one or more properties of the surgical system, evacuation system, surgical procedure, surgical site, and/or patient tissue, for example.

An intermediation device (2) constitutes a manipulation signal converting module in the intermediation device (2) or a manipulation terminal (3). When the manipulation signal converting module receives a plurality of manipulation signals respectively corresponding to a plurality of manipulation keys, the manipulation signal converting module converts the plurality of manipulation signals into a plurality of individual operating commands, and sends the plurality of individual operating commands to a robot (5).

A technique for providing reliable wireless communication between a robot (104) and a robot controller (102) in a cloud robotics system is disclosed. A method implementation of the technique is performed by a primary connectivity component (106) supporting multipath transmission over a plurality of wireless transmission paths to establish connectivity between the robot (104) and the robot controller (102). The method comprises triggering determining (S402) a robot sensitivity value indicating a degree of operation sensitivity of the robot (104) to a transmission failure between the robot (104) and the robot controller (102), and triggering configuring (S404) use of one or more of the plurality of wireless transmission paths for communication between the robot (104) and the robot controller (102) depending on the determined robot sensitivity value.

A cyber-physical system (CPS)-based remote control system for a robot is provided to solve the problems that the traditional teaching and control methods for an industrial robot fail to meet the requirements of intelligent manufacturing and lack in the visual scene. The CPS-based remote control system combines with the visual virtual environment to improve the user experience, which not only improves an efficiency of the control system for the robot, but also brings a new interaction mode with robots in the field of intelligent manufacturing.

A surgical robotic system senses position or orientation of an object, which may be a trocar that has a magnetic field. Magnetic field sensors are coupled to a surgical robotic arm. A machine learning model coupled to the magnetic field sensors is trained to output three-dimensional position and/or three-dimensional orientation of the trocar or other object. Other aspects are also described.

A method of adjusting a staple parameter of a surgical stapling instrument is disclosed. The method includes determining, by a control circuit of the surgical stapling instrument, a first stroke length for a first staple driver of the surgical stapling instrument to drive a first row of staples of a circular stapling head assembly of the surgical stapling instrument; detecting, by the control circuit, a malformed staple in the first row of staples; adjusting, by the control circuit, the staple parameter, based on the detection of the malformed staple; and determining, by the control circuit, a second stroke length for a second staple driver of the surgical stapling instrument to drive a second row of staples of the circular stapling head assembly.