Systems, methods, and devices for electronic spectrum management

The invention claimed is: 1. A system for managing spectrum data for an electromagnetic environment, comprising: at least one node device; and at least one remote device; wherein the at least one node device comprises at least one receiver, an automatic signal detection (ASD) module, and a learning and conflict detection engine; wherein the at least one node device is at an edge of a communication network; wherein the at least one node device is operable to sweep and learn the electromagnetic environment in a learning period based on statistical learning techniques, thereby creating learning data including power level measurements of the electromagnetic environment; wherein the at least one node device is operable to form a knowledge map based on the power level measurements of the electromagnetic environment; wherein the at least one node device is operable to scrub a spectral sweep against the knowledge map; wherein the at least one node device is operable to calculate a first derivative of the power level measurements and a second derivative of the power level measurements; wherein the at least one node device is operable to smooth the spectral sweep with a correction vector, wherein the correction vector is determined according to the spectral sweep; wherein the at least one node device is operable to detect at least one signal in the electromagnetic environment based on matched positive and negative gradients; wherein the at least one node device is operable to average the spectral sweep, remove areas identified by the matched positive and negative gradients, and connect points between removed areas to determine a baseline; wherein the at least one node device is operable to subtract the baseline from the spectral sweep to reveal the at least one signal, thereby creating signal data; wherein the at least one node device is operable to process the signal data, thereby generating processed data; wherein the processed data includes In-Phase and Quadrature (I/Q) data for at least one target bandwidth; wherein the knowledge map comprises an array of normal distributions, wherein each normal distribution corresponds to how often a power level at each frequency has been at a particular level; wherein the at least one node device is operable to automatically fine-tune a threshold of power level on a segmented basis while extracting at least one temporal feature from the knowledge map; and wherein the at least one node device is operable to communicate at least one report for the electromagnetic environment to the at least one remote device. 2. The system of claim 1 , wherein the learning and conflict detection engine is configured for conflict recognition and anomaly identification based on the processed data. 3. The system of claim 1 , wherein one or more of the at least one node device is mobile, and wherein the one or more of the at least one node device is installed on a drone, a vehicle, and/or a convoy. 4. The system of claim 1 , wherein the at least one receiver comprises a primary receiver and a secondary receiver, wherein the primary receiver is configured to generate the I/Q data for the at least one target bandwidth, and wherein the secondary receiver is configured to perform a fast Fourier transform (FFT) based on a wideband sweeping of the electromagnetic environment. 5. The system of claim 1 , wherein the at least one node device further comprises an I/Q buffer, wherein the learning and conflict detection engine is operable to determine whether to keep the I/Q data in the I/Q buffer. 6. The system of claim 1 , wherein the at least one node device further comprises a demodulator configured to distill the I/Q data and store actionable I/Q data, wherein the actionable I/Q data comprises signal metrics, protocol data, radio identification (ID), network ID and layer 3 data. 7. The system of claim 1 , wherein the learning and conflict detection engine is operable to tune the ASD module automatically. 8. The system of claim 1 , wherein the at least one report comprises a correlated event report, an alert, an alarm, meta data, channelized data, actionable I/Q data, coverage, capacity, or conflict analysis. 9. The system of claim 1 , wherein the ASD module is configured to extract meta data and detect anomalies based on the processed data. 10. The system of claim 1 , wherein the ASD module is operable for signal recognition based on temporal feature extraction. 11. The system of claim 1 , wherein the ASD module is operable to detect a narrow band signal with a bandwidth from 1 kHz to 60 kHz inside a wideband signal with a bandwidth up to 100 MHz across a 6 GHz spectrum. 12. The system of claim 1 , wherein the ASD module is operable to detect a second wideband signal within a first wideband signal, wherein the first wideband signal is an aggregation of the second wideband signal and a third wideband signal. 13. The system of claim 1 , wherein the at least one node device is operable for audio recognition. 14. An apparatus for spectrum data management for an electromagnetic environment, comprising: at least one receiver, an automatic signal detection (ASD) module, and a learning and conflict detection engine; wherein the apparatus is at an edge of a communication network; wherein the apparatus is operable to sweep and learn the electromagnetic environment in a learning period based on statistical learning techniques, thereby creating learning data including power level measurements of the electromagnetic environment; wherein the apparatus is operable to form a knowledge map based on the power level measurements of the electromagnetic environment; wherein the apparatus is operable to scrub a spectral sweep against the knowledge map; wherein the apparatus is operable to calculate a first derivative of the power level measurements and a second derivative of the power level measurements; wherein the apparatus is operable to smooth the spectral sweep with a correction vector, wherein the correction vector is determined according to the spectral sweep; wherein the apparatus is operable to detect at least one signal in the electromagnetic environment based on matched positive and negative gradients; wherein the apparatus is operable to average the spectral sweep, remove areas identified by the matched positive and negative gradients, and connect points between removed areas to determine a baseline; wherein the apparatus is operable to subtract the baseline from the spectral sweep to reveal the at least one signal, thereby creating signal data; wherein the apparatus is operable to process the signal data, thereby generating processed data; wherein the processed data includes In-Phase and Quadrature (I/Q) data for at least one target bandwidth; wherein the knowledge map comprises an array of normal distributions, wherein each normal distribution corresponds to how often a power level at each frequency has been at a particular level; wherein the apparatus is operable to automatically fine-tune a threshold of power level on a segmented basis while extracting at least one temporal feature from the knowledge map; and wherein the apparatus is operable to communicate at least one report for the electromagnetic environment to at least one remote device. 15. The apparatus of claim 14 , wherein the at least one receiver comprises a primary receiver and a secondary receiver, wherein the primary receiver is configured to generate the I/Q data for at least one target bandwidth, and wherein the secondary receiver is configured to perform a fast Fourier transform (FFT) based on a wideband sweeping of th