Wireless thermometer communicating with cooktop for closed loop element control

What is claimed is: 1 . A system for wireless closed loop control of a cooking appliance, comprising: a cooking appliance having a control system; at least one cooking environment condition responsive probe; a first transmitter/receiver configured to transmit data from said at least one probe; a second transmitter/receiver coupled to said control system; and a smart device, wherein said smart device is configured for communications with said first transmitter/receiver and said second transmitter/receiver, and wherein said smart device contains a user configurable application for controlling cooking parameters of said cooking appliance based at least in part on data from said at least one probe. 2 . A system as in claim 1 , further comprising: a router configured for communications among said first transmitter/receiver, said second transmitter/receiver, and said smart device. 3 . A system as in claim 2 , wherein said router is configured for connection to the Internet. 4 . A system as in claim 3 , wherein said smart device is enabled for communication over the Internet. 5 . A system as in claim 1 , wherein said first transmitter/receiver, said second transmitter/receiver, and said smart device are configured for communications using one of WiFi, Bluetooth®, and ZigBee® technology. 6 . A system as in claim 1 , wherein said at least one cooking environment condition responsive probe is responsive to one or more of temperature, pressure, viscosity, and moisture. 7 . A system as in claim 1 , wherein said smart device comprises one of a smartphone, a tablet device, a personal computer, and a standalone device. 8 . A system as in claim 1 , further comprising: a connector coupled to said cooking appliance control system, whereby said second transmitter/receiver may be coupled to said control system. 9 . A system as in claim 8 , wherein said connector is an RJ45 connector. 10 . A system for enabling wireless closed loop control of a cooking appliance, comprising: at least one cooking environment condition responsive probe; a housing; a communications board mounted within said housing and configured to wirelessly transmit data from said at least one probe; and an input/output board mounted on said housing and configured to display data from said at least one probe. 11 . A system as in claim 10 , wherein said at least one cooking environment condition responsive probe is responsive to one or more of temperature, pressure, viscosity, and moisture. 12 . A system as in claim 10 , further comprising: a jack mounted to said housing and configured to receive signals from said at least one cooking environment condition responsive probe and to convey said signals to said communications board. 13 . A system as in claim 10 , wherein said display is a touch responsive display, whereby user input may be entered through said input/output board. 14 . A system as in claim 10 , further comprising: a power supply mounted within said housing. 15 . A system as in claim 14 , wherein said power supply is a battery. 16 . A system as in claim 15 , wherein said battery is a rechargeable battery. 17 . A system as in claim 10 , wherein said communications board is configured for communications using one of WiFi, Bluetooth®, and ZigBee® technology. 18 . A method for implementing closed loop control of a cooking appliance, comprising: collecting data related to at least one cooking environment condition; communicating the data to a smart device remote from the cooking environment; processing the data within the smart device; and controlling the cooking environment condition based on the processed data. 19 . The method of claim 18 , wherein communicating comprises wirelessly transmitting one of WiFi, Bluetooth®, and ZigBee® protocols. 20 . The method of claim 18 wherein collecting comprises collecting one or more of temperature, pressure, viscosity, and moisture cooking environment data.