Motorized skating systems and methods for controlling the systems are disclosed. One exemplary system may include a primary skate and a secondary skate. The primary skate may include a sensor configured to detect a tilting signal. The primary skate may also include a first processor. The processor m
Motorized skating systems and methods for controlling the systems are disclosed. One exemplary system may include a primary skate and a secondary skate. The primary skate may include a sensor configured to detect a tilting signal. The primary skate may also include a first processor. The processor may be configured to determine a first control signal for moving the primary skate based on the tilting signal and determine a motion signal for moving the secondary skate based on the first control signal. The primary skate may further include a first communication interface configured to send the motion signal to the secondary skate. The secondary skate may include a second communication interface configured to receive the motion signal from the first communication interface. The secondary skate may also include a second processor configured to determine a second control signal for moving the secondary skate based on the received motion signal.
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1. A motorized skating system, comprising: a primary skate and a secondary skate; andat least one battery,wherein the primary skate includes: a horizontal portion configured to support a user of the motorized skating system;a sensor configured to detect a tilting signal indicating a tilting angle of
1. A motorized skating system, comprising: a primary skate and a secondary skate; andat least one battery,wherein the primary skate includes: a horizontal portion configured to support a user of the motorized skating system;a sensor configured to detect a tilting signal indicating a tilting angle of the horizontal portion;at least one rear wheel coupled to the horizontal portion through at least one swing arm, the at least one swing arm being movably coupled to the horizontal portion;a first processor configured to: determine a first control signal for moving the primary skate based on the tilting signal;determine a motion signal for moving the secondary skate based on the first control signal; andmonitor at least one of: temperature, voltage, current, and capacity of the at least one battery;a first communication interface configured to send the motion signal to the secondary skate; andwherein the secondary skate includes: a second communication interface configured to receive the motion signal from the first communication interface of the primary skate; anda second processor configured to determine a second control signal for moving the secondary skate based on the received motion signal. 2. The motorized skating system of claim 1, wherein the at least one swing arm is coupled to the horizontal portion through a linear or rotating potentiometer. 3. The motorized skating system of claim 1, further comprising: a vertical portion coupled to the horizontal portion, anda shock absorber connected to the vertical portion at one end and to the at least one rear wheel at the other end. 4. A motorized skating system, comprising: a primary skate and a secondary skate; andat least one battery,wherein the primary skate includes: a horizontal portion configured to support a user of the motorized skating system;a sensor configured to detect a tilting signal indicating a tilting angle of the horizontal portion;at least one rear wheel coupled to the horizontal portion through at least one swing arm, the at least one swing arm being movably coupled to the horizontal portion;a first processor configured to: determine a first control signal for moving the primary skate based on the tilting signal; anddetermine a motion signal for moving the secondary skate based on the first control signal;a first communication interface configured to send the motion signal to the secondary skate; andwherein the secondary skate includes: a second communication interface configured to receive the motion signal from the first communication interface of the primary skate; anda second processor configured to determine a second control signal for moving the secondary skate based on the received motion signal. 5. The motorized skating system of claim 4, wherein the at least one swing arm is coupled to the horizontal portion through a linear or rotating potentiometer. 6. The motorized skating system of claim 4, further comprising: a vertical portion coupled to the horizontal portion, anda shock absorber connected to the vertical portion at one end and to the at least one rear wheel at the other end. 7. The motorized skating system of claim 4, wherein the sensor of the primary skate includes a potentiometer configured to detect the tilting signal. 8. The motorized skating system of claim 4, wherein the first processor is configured to determine whether the tilting signal is above a predetermined angle, wherein the predetermined angle corresponds to an angle greater than 0 degrees, wherein no power is applied to at least the primary skate for moving the primary skate in response to determining that the tilting signal is below the predetermined angle. 9. The motorized skating system of claim 4, wherein the primary skate includes a wheel system, the wheel system including: at least one wheel;a motor built in the at least one wheel; anda motor drive for driving the motor based on the first control signal,wherein the first processor is further configured to monitor one or more of: rotation speed of the wheel system, torque applied to the wheel system, power output by the motor drive, and state information of the motor. 10. The motorized skating system of claim 4, wherein the secondary skate includes a motor driving system configured to drive a wheel system, and wherein the motion signal includes information indicating at least one of torque to be applied to the wheel system, speed of the wheel system, power output by the motor driving system, or operation status of the primary skate. 11. The motorized skating system of claim 4, wherein the second control signal includes information for moving the secondary skate at a substantially same speed as the primary skate. 12. The motorized skating system of claim 4, wherein the second control signal includes information for moving the secondary skate at a different speed than the primary skate. 13. The motorized skating system of claim 4, wherein the second skate is configured to follow a motion of the first skate. 14. The motorized skating system of claim 4, wherein each skate includes identification information, the identification information comprising one or more of the following: a code, an address, a frequency, and a sequence of frequencies, and wherein each skate includes pairing information, the pairing information of the first skate including the identification information of the second skate, and the pairing information of the second skate including the identification information of the first skate.
Kamen, Dean; Heinzmann, Richard Kurt; Heinzmann, John David; Ambrogi, Robert R.; Langenfeld, Christopher C.; Field, J. Douglas, Dynamically stable transporter controlled by lean.
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