Battery management system

What is claimed is: 1. An apparatus for discharging a battery assembly used to power at least part of an object, said apparatus comprising: a timer configured to: (1) receive a signal transmitted from the object and configured to indicate that power to the object is turned off for storage of the object, and initiate timing in response thereto and (2) detect an amount of time elapsed since the power to the object is turned off; one or more processors individually or collectively configured to: (1) receive a signal from the timer indicative of the amount of time elapsed and (2) generate a signal that initiates a controlled self-discharge of the battery assembly when the amount of time elapsed exceeds a threshold length of time; and a self-discharging circuit electrically coupled to the battery assembly and configured to, in response to receiving the signal that initiates the controlled self-discharge of the battery assembly, linearly decrease a voltage of the battery assembly to a preset voltage value, wherein the self-discharging circuit comprises a self-discharging resistor and a control switch, together both connected in parallel with positive and negative terminals of the battery assembly, and the controlled self-discharge is initiated when the control switch is switched to a closed state and is terminated when the control switch is switched to an open state and the controlled self-discharge is carried out by the self-discharging resistor controlled by the control switch. 2. The apparatus of claim 1 , wherein the one or more processors individually or collectively are further configured to receive a signal indicative of the voltage of the battery assembly during the controlled self-discharge of the battery assembly, and generate a signal that terminates the controlled self-discharge of the battery assembly when the voltage reaches a threshold voltage value. 3. The apparatus of claim 2 , wherein the threshold voltage is configured to enable safe long-term storage of the battery assembly. 4. The apparatus of claim 2 , wherein the one or more processors individually or collectively are further configured to generate a signal that enters the battery assembly into a hibernation mode subsequent to terminating the controlled self-discharge of the battery assembly. 5. The apparatus of claim 1 , wherein the one or more processors individually or collectively are further configured to receive a signal indicative of when the power to the object is turned on, and generate a signal that terminates the controlled self-discharge of the battery assembly when the power to the object is turned on. 6. The apparatus of claim 1 , wherein the one or more processors individually or collectively are further configured to receive a signal indicative of the battery assembly powering the at least the part of the object, and generate a signal that terminates the controlled self-discharge of the battery assembly if the battery assembly powers the at least the part of the object. 7. An unmanned aerial vehicle, comprising a battery assembly and the apparatus of claim 1 operably coupled to the battery assembly. 8. The apparatus of claim 1 , wherein the self-discharging circuit is a separate circuit for the controlled self-discharge, and the control switch is configured to be capable of being set to the closed state manually by a user. 9. An apparatus for discharging a battery assembly, said apparatus comprising: a timer configured to detect an amount of time that the battery assembly is not in use since a signal is received from an object and configured to indicate that power to the object is turned off for storage of the object; one or more processors individually or collectively configured to: receive a signal from the timer indicative of the amount of time, and generate a signal that initiates a controlled self-discharge of the battery assembly when the amount of time exceeds a threshold length of time; and a self-discharging circuit electrically coupled to the battery assembly and configured to, in response to receiving the signal that initiates the controlled self-discharge of the battery assembly, linearly decrease a voltage of the battery assembly to a preset voltage value, wherein the self-discharging circuit comprises a self-discharging resistor and a control switch, together both connected in parallel with positive and negative terminals of the battery assembly, and the controlled self-discharge is initiated when the control switch is switched to a closed state and is terminated when the control switch is switched to an open state and the controlled self-discharge is carried out by the self-discharging resistor controlled by the control switch. 10. The apparatus of claim 9 , wherein the one or more processors individually or collectively are further configured to generate a signal that terminates the controlled self-discharge of the battery assembly when (1) the battery assembly is in use, or (2) the voltage of the battery assembly reaches a threshold voltage value. 11. The apparatus of claim 10 , wherein the threshold voltage is configured to enable safe long-term storage of the battery assembly. 12. The apparatus of claim 10 , wherein the one or more processors individually or collectively are further configured to generate a signal that enters the battery assembly into a hibernation mode subsequent to terminating the controlled self-discharge of the battery assembly when the voltage of the battery assembly reaches the threshold voltage value. 13. The apparatus of claim 9 , wherein the battery assembly is used to power a propulsion system of the UAV. 14. An unmanned aerial vehicle, comprising a battery assembly and the apparatus of claim 9 . 15. A method of discharging a battery assembly, said method comprising: detecting, with aid of a timer, when the battery assembly is not in use for a threshold length of time since a signal is received from an object and configured to indicate that power to the object is turned off for storage of the object; initiating, with one or more processors, a controlled self-discharge of the battery assembly when the battery assembly is not in use for the threshold length of time; and in response to receiving a signal that initiates the controlled self-discharge of the battery assembly, linearly decreasing, with a self-discharging circuit, a voltage of the battery assembly to a preset voltage value, wherein the self-discharging circuit comprises a self-discharging resistor and a control switch, together both connected in parallel with positive and negative terminals of the battery assembly, and the controlled self-discharge is initiated when the control switch is switched to a closed state and is terminated when the control switch is switched to an open state and the controlled self-discharge is carried out by the self-discharging resistor controlled by the control switch. 16. The method of claim 15 , further comprising terminating the controlled self-discharge of the battery assembly when (1) the battery assembly is in use, or (2) the battery assembly voltage reaches a threshold voltage value. 17. The method of claim 15 , wherein the threshold voltage is configured to enable safe long-term storage of the battery assembly. 18. The method of claim 15 , further comprising entering a hibernation mode subsequent to terminating the controlled self-discharge of the battery assembly when the battery assembly voltage reaches the threshold voltage value.