“Cloud capable” battery device command and control management system with an artificial intelligence means
First Claim
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1. A cloud based systemic system comprising:
- a computer system having hardware, firmware, data storage and software with at least one Cloud Capable Local Device;
said computer system having a bi-directional communication that is configured for local or remote connection, or monitoring, or control of said at least one Cloud Capable Local Device;
said Cloud Capable Local Device is connected to at least one battery;
when said at least one battery is connected to said Cloud Capable Local Device said Cloud Capable Local Device performs a Geo-position of the battery and performs an electrical test where results of said electrical test are compared to a database of known battery definitions to determine a deviation;
said deviation is used to formulate alarm parameters and triggers, activate an alarm condition, formulate and implement a corrective action, test the corrective action, store the event data and reset the Alarm Condition, all without specific human intervention as related to said at least one battery that is remotely viewable;
said Cloud Capable Local Device has an internal auto sequence mode that charges said at least one battery, a BattRecon de-sulfation process and then a discharge test to said at least one battery;
said Cloud Capable Local Device has a Manual Mode operation that applies one process to one said Cloud Capable Local Device to battery(s), facility(s), or an environmental condition to said at least one battery;
an auto sequence array that sequences through at least two Manual Mode operations;
said at least one Cloud Capable Local Device includes said Manual Mode operation, said internal Auto Sequence mode, a safety and operational function, a create operational Alarm profiles function, a remote scanning process to measure and transmit measurement of a said at least one battery, facility, an environmental or ancillary device metrics, a remote Command Process that enables an operator to create and implement functional device commands, a function to provide a real time display, a function to change parameters for the Manual Mode operation during assignment and positioning within the Auto Sequence Array, a manual mode function that cycles between multiple said Manual Mode operations within the Auto Sequence Array that uses a time limitation, wherein when the time limitation expires, an Auto Sequence routine moves to a next sequential Manual Mode operation, a function that cycles between the Manual Mode operations within the Auto Sequence Array that uses a Volts per Cell (VPC) limitation, wherein when an Assigned VPC is attained or exceeded, the Auto Sequence routine moves to the next Manual Mode operation within said auto sequence array, anda process to cycle between Manual Mode operations within the Auto Sequence mode by using a metric parameter limitation, when the assigned metric parameter, or parameters range is attained or exceeded, the Auto Sequence array moves to the next sequential Manual Mode operation.
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Abstract
A Cloud Based System of remotely controlling service and diagnostic devices using a computer based hardware system, computer software, an Artificial Intelligence means comprising computer software and algorithms, a data storage means, a Global Geo-Positioned Local Device management means, and a communications network. While the exemplary device was initially designed as a “Cloud Capable” Battery Device Command and Control Service Oriented System, it is understood that the disclosed Cloud Capable Battery Device Management System is not limited to the Battery Device Service Industry; rather, it may be uniquely suited to other non-battery industry Device Command and Control applications.
23 Citations
16 Claims
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1. A cloud based systemic system comprising:
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a computer system having hardware, firmware, data storage and software with at least one Cloud Capable Local Device; said computer system having a bi-directional communication that is configured for local or remote connection, or monitoring, or control of said at least one Cloud Capable Local Device; said Cloud Capable Local Device is connected to at least one battery; when said at least one battery is connected to said Cloud Capable Local Device said Cloud Capable Local Device performs a Geo-position of the battery and performs an electrical test where results of said electrical test are compared to a database of known battery definitions to determine a deviation; said deviation is used to formulate alarm parameters and triggers, activate an alarm condition, formulate and implement a corrective action, test the corrective action, store the event data and reset the Alarm Condition, all without specific human intervention as related to said at least one battery that is remotely viewable; said Cloud Capable Local Device has an internal auto sequence mode that charges said at least one battery, a BattRecon de-sulfation process and then a discharge test to said at least one battery; said Cloud Capable Local Device has a Manual Mode operation that applies one process to one said Cloud Capable Local Device to battery(s), facility(s), or an environmental condition to said at least one battery; an auto sequence array that sequences through at least two Manual Mode operations; said at least one Cloud Capable Local Device includes said Manual Mode operation, said internal Auto Sequence mode, a safety and operational function, a create operational Alarm profiles function, a remote scanning process to measure and transmit measurement of a said at least one battery, facility, an environmental or ancillary device metrics, a remote Command Process that enables an operator to create and implement functional device commands, a function to provide a real time display, a function to change parameters for the Manual Mode operation during assignment and positioning within the Auto Sequence Array, a manual mode function that cycles between multiple said Manual Mode operations within the Auto Sequence Array that uses a time limitation, wherein when the time limitation expires, an Auto Sequence routine moves to a next sequential Manual Mode operation, a function that cycles between the Manual Mode operations within the Auto Sequence Array that uses a Volts per Cell (VPC) limitation, wherein when an Assigned VPC is attained or exceeded, the Auto Sequence routine moves to the next Manual Mode operation within said auto sequence array, and a process to cycle between Manual Mode operations within the Auto Sequence mode by using a metric parameter limitation, when the assigned metric parameter, or parameters range is attained or exceeded, the Auto Sequence array moves to the next sequential Manual Mode operation. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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Specification