Autonomous apparatus

1 . An autonomous apparatus, moving and performing preset work in a defined working area, the autonomous apparatus comprising an energy module supplying energy to the autonomous apparatus, a motor, a sensor circuit, and a control circuit, the motor obtaining the energy from the energy module, to drive the autonomous apparatus to move and/or work in the working area, the sensor circuit detecting a working parameter and an environmental parameter of the autonomous apparatus, and transmitting a detection result to the control circuit, the control circuit controlling the operation of the motor according to a signal transmitted by the sensor circuit, wherein the motor is a sensorless brushless motor, and before the motor rotates, the control circuit measures a resistance value of the motor and estimates a rotor position of the motor based on the resistance value of the motor, to control the operation of the motor. 2 . The autonomous apparatus according to claim 1 , wherein the control circuit comprises an inverter circuit, the control circuit applies a first voltage value V 1 to any two phases of the motor through the inverter circuit, so that a phase current flowing through the motor reaches a first current value I 1 , the control circuit applies a second voltage value V 2 to any two phases of the motor through the inverter circuit, so that the phase current flowing through the motor reaches a second current value I 2 , and the control circuit measures the resistance value of the motor based on the first voltage value V 1 , the first current value I 1 , the second voltage value V 2 , and the second current value I 2 . 3 . The autonomous apparatus according to claim 2 , wherein in a process of applying a voltage to any two phases of the motor by the control circuit, a duty ratio is gradually increased until the phase current flowing through the motor reaches the first current value I 1 or the second current value I 2 . 4 . The autonomous apparatus according to claim 1 , wherein the control circuit is a field oriented control (FOC) control circuit. 5 . The autonomous apparatus according to claim 4 , wherein when the control circuit determines, based on the rotor position of the motor, that a rotation speed of the motor is less than a first preset rotation speed, the control circuit controls a d-axis current Id to be a non-zero positive value. 6 . The autonomous apparatus according to claim 5 , wherein the control circuit controls the d-axis current Id to decrease as the rotation speed of the motor increases. 7 . The autonomous apparatus according to claim 6 , wherein the control circuit controls the d-axis current Id to linearly decrease as the rotation speed increases. 8 . The autonomous apparatus according to claim 5 , wherein when the rotation speed of the motor is greater than the first preset rotation speed, the control circuit controls the d-axis current Id to be zero. 9 . The autonomous apparatus according to claim 1 , wherein the motor comprises a walking motor and a working motor, the walking motor drives the autonomous apparatus to move in the working area, and the working motor drives the autonomous apparatus to perform the preset work. 10 . The autonomous apparatus according to claim 1 , wherein after the motor starts rotating, the control circuit estimates the rotor position of the motor based on the resistance value of the motor measured before the motor rotates, and controls the operation of the motor according to an estimation result.