Robot

What is claimed is: 1. A robot, comprising: a main body having a spherical-zone shape, the spherical-zone shape defined by a first side and a second side opposed to the first side being removed from a sphere; a first spherical-crown corresponding to the first side; a second spherical-crown corresponding to the second side; a shaft that connects the first spherical-crown and the second spherical-crown; a display that is mounted in the shaft via an arm, the display configured to display at least part of a face of the robot; a first drive mechanism that is configured to rotate the first spherical-crown and the second spherical-crown by rotation of the shaft; a second drive mechanism that is independent of the first drive mechanism and configured to rotate the main body around the shaft as a center; an angular speed sensor that is configured to detect an angular speed, of the display, around an axis in a horizontal direction perpendicular to a moving direction of the main body; a memory that stores a correspondence relationship between a reference pitch angle and a minimum control amount, the minimum control amount being used by the second drive mechanism for moving the main body without stopping; and a control circuit that is configured to, when the robot moves to a predetermined target point by rotating the main body: detect a maximum value of a pitch angle which changes since an instruction to rotate the main body is received by the second drive mechanism, the pitch angle being a cumulative value of the detected angular speed; determine an actual minimum control amount corresponding to the detected maximum value of the pitch angle by referring to the correspondence relationship; when the robot is at a predetermined distance short of the predetermined target point, generate a deceleration control amount for the second drive mechanism that is greater than or equal to the actual minimum control amount, according to a remaining distance to the predetermined target point; and decelerate a rotation of the main body by controlling the second drive mechanism in accordance with the deceleration control amount. 2. The robot according to claim 1 , wherein the control circuit decelerates the rotation of the main body by decreasing the deceleration control amount by S-curve control. 3. The robot according to claim 2 , wherein, when movement of the robot is started by rotating the main body, the control circuit is further configured to accelerate the rotation of the main body by increasing an acceleration control amount for accelerating the rotation of the main body by trapezoidal control until a rotational speed of the main body is a predetermined speed. 4. The robot according to claim 3 , wherein, after the rotational speed of the main body is the predetermined speed, the control circuit is further configured to maintain the rotational speed of the main body at the predetermined speed until the robot arrives at predetermined distance short of the predetermined target point. 5. The robot according to claim 1 , further comprising: a camera in at least one of the first spherical-crown and the second spherical-crown; and a microphone in at least one of the first spherical-crown and the second spherical-crown, wherein the memory stores a reference data image for checking a person and reference voice data for recognizing a voice, and the control circuit is further configured to, when determining that a predetermined person utters predetermined words based on voice data input from the microphone and the reference voice data and when recognizing the predetermined person based on image data input from the camera and the reference data image, set a location of the predetermined person as the predetermined target point. 6. The robot according to claim 1 , wherein the control circuit generates the deceleration control amount by a calculation expression of: (SIN(3*π/2−π/ L*d )+1)*(Max−min)/2+min, and in the calculation expression: d is a distance in meters from a location of the robot to the predetermined target point; Max is a control amount in hertz when the control circuit starts to control the second drive mechanism in accordance with the deceleration control amount; min is the minimum control amount; and L is the predetermined distance from the predetermined target point.