The present application provides a hotel management system and method. The system includes at least one control panel; the control panel includes a first sub-panel and a second sub-panel; the first sub-panel is used to verify a first authorization key; and the first authorization key is used for hotel identity verification; the second sub-panel works independently of the first sub-panel, and the second sub-panel includes at least one physical regulator. The physical regulator is used to control sensing module and room equipment; and the first sub-panel controls the physical regulator. The first sub-panel and the second sub-panel are detachably connected. The hotel management system and guests can interact with each other and a smarter, more convenient and more powerful hotel environment control system is integrated in the hotel management system.

The present application provides a hotel management system and method. The system includes at least one control panel; the control panel includes a first sub-panel and a second sub-panel; the first sub-panel is used to verify a first authorization key; and the first authorization key is used for hotel identity verification; the second sub-panel works independently of the first sub-panel, and the second sub-panel includes at least one physical regulator. The physical regulator is used to control sensing module and room equipment; and the first sub-panel controls the physical regulator. The first sub-panel and the second sub-panel are detachably connected. The hotel management system and guests can interact with each other and a smarter, more convenient and more powerful hotel environment control system is integrated in the hotel management system.

A device includes a memory configured to store a preexisting schedule and one or more processors configured to perform operations including controlling a temperature within an enclosure according to a first setpoint, wherein the first setpoint is from the preexisting schedule and represents a temperature for when the enclosure is occupied. The operations also include accessing occupancy data indicating occupancy within the enclosure and automatically changing the first setpoint to a second setpoint upon expiration of a predetermined time interval during which no occupancy has been detected. The second setpoint requires less energy to maintain than the first setpoint, and the predetermined time interval is modified based at least in part on received manual settings that indicate occupancy following the changing to the second setpoint.

A device includes a memory configured to store a preexisting schedule and one or more processors configured to perform operations including controlling a temperature within an enclosure according to a first setpoint, wherein the first setpoint is from the preexisting schedule and represents a temperature for when the enclosure is occupied. The operations also include accessing occupancy data indicating occupancy within the enclosure and automatically changing the first setpoint to a second setpoint upon expiration of a predetermined time interval during which no occupancy has been detected. The second setpoint requires less energy to maintain than the first setpoint, and the predetermined time interval is modified based at least in part on received manual settings that indicate occupancy following the changing to the second setpoint.

An engineering tool coordination device includes a first tool interface configured to acquire first data having a first data format usable to an engineering tool, a data converter configured to convert the first data into second data usable to the control program, the second data having a second data format, a program provider configured to provide the second data to the control program, a second tool interface configured to acquire a first test request having a first test request format from the engineering tool, a test converter configured to convert the first test request into a second test request executable in the control program, the second test request having a second test request format, and a test manager configured to cause to execute an operation test program in the control program and to operate an operation test using the second data on a basis of the second test request.

An engineering tool coordination device includes a first tool interface configured to acquire first data having a first data format usable to an engineering tool, a data converter configured to convert the first data into second data usable to the control program, the second data having a second data format, a program provider configured to provide the second data to the control program, a second tool interface configured to acquire a first test request having a first test request format from the engineering tool, a test converter configured to convert the first test request into a second test request executable in the control program, the second test request having a second test request format, and a test manager configured to cause to execute an operation test program in the control program and to operate an operation test using the second data on a basis of the second test request.

A method is presented for fitting a tyre onto a rim or removing a tyre from a rim in a tyre fitting machine using an appropriate tool. A wheel, a tyre/rim assembly, or the rim alone is caused to rotate about an axis of rotation, and at least one operating parameter of the tyre fitting machine is continuously monitored during the rotation to determine every actual value. Change in or gradient of such actual value is automatically monitored over time and each actual value found and/or the change in the value over time is compared with corresponding predetermined threshold values. The predetermined threshold values define a range of present values and/or change in values delimiting an accepted operating range for the tyre fitting machine, and the machine is controlled to maintain each measured present value and/or change therein over time within the range of corresponding predetermined threshold values.

A method is presented for fitting a tyre onto a rim or removing a tyre from a rim in a tyre fitting machine using an appropriate tool. A wheel, a tyre/rim assembly, or the rim alone is caused to rotate about an axis of rotation, and at least one operating parameter of the tyre fitting machine is continuously monitored during the rotation to determine every actual value. Change in or gradient of such actual value is automatically monitored over time and each actual value found and/or the change in the value over time is compared with corresponding predetermined threshold values. The predetermined threshold values define a range of present values and/or change in values delimiting an accepted operating range for the tyre fitting machine, and the machine is controlled to maintain each measured present value and/or change therein over time within the range of corresponding predetermined threshold values.

A robotic system includes a processing system comprising at least one processor. The processor generates a plan to monitor the asset. The plan comprises one or more tasks to be performed by the at least one robot. The processor receives sensor data from at least one sensor indicating one or more characteristics of the asset. The processor adjusts the plan to monitor the asset by adjusting or adding one or more tasks to the plan based on one or both of the quality of the acquired data or a potential defect of the asset. The adjusted plan causes the at least one robot to acquire additional data related to the asset when executed.

A robotic system includes a processing system comprising at least one processor. The processor generates a plan to monitor the asset. The plan comprises one or more tasks to be performed by the at least one robot. The processor receives sensor data from at least one sensor indicating one or more characteristics of the asset. The processor adjusts the plan to monitor the asset by adjusting or adding one or more tasks to the plan based on one or both of the quality of the acquired data or a potential defect of the asset. The adjusted plan causes the at least one robot to acquire additional data related to the asset when executed.