1. MITRE
   1. TEMPO Modes of Operation
      1. Raw Data (Streaming)
      2. Teager of 1 Second Windows
      3. Teager of 10 Second Windows
      4. Raw if Over a Threshold
      5. Teager of 1 Second Windows if Over a Threshold
   2. Laptop DESI
      1. Streaming XML Over TCP to Database
      2. Reading XML from Database & Displaying
      3. DESI Receiving Commands & Changing the Operating Modes
   3. PDA DESI
      1. Working Bluetooth Comm. with TEMPO
         1. InTheHand, BlueTools, LabVIEW, etc.
      2. LabVIEW PDA BlueTEMPO Software
         1. Converts to XML & Comm. Over TCP
      3. Comm. Over WiFI and/or GSM
2. Maite/Gait Classification
   1. Pilot Study (Proof of Concept)
      1. Energy Analysis
         1. with floating point unit (FPU)
         2. without FPU
         3. Plot Class. Accuracy vs. Energy
      2. 30 Students
         1. First 20
            1. Show Classification Accuracy
            2. ANN
            3. SVM
            4. KNN
            5. CMAC
            6. Back-End Processing
         2. Last 10
            1. Show Classification Accuracy
            2. ANN
            3. SVM
            4. KNN
            5. CMAC
            6. Temporal Aggregation/Averaging
      3. Feature Extraction Accuracy
         1. LabVIEW Code
         2. C Code
      4. Binary Classification
      5. Networks and Topologies (Accuracy and Energy)
         1. Classify on-node
         2. Feature Extract on-node
         3. stream from node
   2. IRB Study
      1. Subjects Aged (X) to (Y)
         1. with Shuffle Gait
         2. with Normal Gait
         3. with Other Gait Disorders
      2. Cycle Extraction
      3. Feature Extraction & Classification
         1. Matrix Rot. Feat. Extraction & ANN,SVM,KNN Classification
         2. Embedded Feat. Extraction & ANN,SVM,KNN Classification
         3. Embedded Feat. Extraction & CMAC Classification
      4. Energy Analysis (Accuracy vs. Energy)
   3. Future
      1. Multiple Classes for other gait disorders
3. Barth
   1. Study: Effects of Gait Parameters on Shunt Efficacy in Normal Pressure Hydrosephalis Patients
      1. Collect Gait Data using TEMPO Nodes
   2. TBI/PTSD
4. Philips
   1. Publish Summer Work
      1. Paper: Analysis Processing & Timing & Energy Tradeoffs
         1. Include Possibility for DVFS
5. UTD
   1. Data Repository
      1. Standard XML Format
         1. Parsers, Translators, etc.
      2. Online Server
         1. Tools to Upload, Download, & View
      3. BASN Metadata
         1. Setup
         2. Placement
         3. Orientation
         4. Precision
         5. Sampling Rate
         6. Sensor Node Description
   2. BASN Research
      1. Gait
         1. Statistical vs. Physical/Heuristic Feature Extraction
      2. TBI/PTSD
         1. Combine TEMPO and UTD GSR
6. A-Frame
   1. Long-Term Patients
   2. Short-Term Patients
   3. Processing Techniques for Extracting Fall Risk
7. TEMPO
   1. TEMPO 3.1
      1. Hardware
         1. New Charger (Easy Connection)
         2. mini-USB/Magnetic Cables for TEMPO/Charger
         3. Usage Documentation
         4. Sensor Board
            1. 6 Degrees of Freedom
            2. Bluetooth Comm.
            3. Rechargeable Lithium Battery
            4. No Battery
         5. Ergonomic Casing
      2. Firmware
         1. Fix Reset on Charging Debounce
         2. Accept AT Commands over Bluetooth
         3. Wakeup/Sleep Based on "charge" Line
         4. Sample at 120Hz and Stream Over Bluetooth
      3. Software
         1. Collect Streaming Data From up to 7 TEMPO nodes
         2. Save in either CSV or XML format
            1. Define TEMPO XML Data Structure
   2. TEMPO 3.2
      1. Software
         1. Annotation Capabilities with BlueTEMPO
      2. Hardware
         1. New Gyro Package
         2. Fix Static Current Draw
      3. Firmware
         1. Incorporate UART.c
         2. Separate Files
         3. Wake Up and Check for Network
         4. Documentation
   3. Development/Research
      1. TEMPO 3.2 Testing Board
      2. Research Board Rev1
         1. MSP5xxx Series
            1. DVFS Firmware
         2. Coulomb Counter
         3. Inputs for Previous Data from LabVIEW
      3. Sub GHz Embedded Radio
      4. CompactRIO Data Recycler
         1. Recycle Data From XML File Using Metadata
         2. Recycle Legacy TEMPO Data at 120Hz
         3. Handle Situations with 3 or 6 Axes of Data
   4. Accessories
      1. Heart Rate Unit (Sparkfun)
         1. Add to Data Logging Software
         2. Separate Unit Connected to Computer
         3. Future: Built into Custom Aggregator
8. Wylie
   1. Study: Effect of Social Pressures on Parkinsonian Tremeor Severity
      1. Collect Data
         1. TEMPO Data
         2. Heart Rate
         3. Video
9. Stankovic
   1. Paper: Multiple BASN Interactions
      1. Interference Tests with RSSI
      2. Algorithm for Mitigating Interference
   2. TEMPO PDA Working with AlarmNet
      1. Interface with Anthony's Code
      2. Add Components from MITRE DESI
   3. Runtime Profiling of Wireless, Data, and Energy for BASNs
10. Anderson
    1. Paper: Using TEMPO to Asses Restless Behavior
11. Academic
    1. Mark
    2. Harry
    3. Adam
12. Lockhart
13. Elias/Frysinger
    1. 10 Patients
       1. Collect Data
       2. Extract Tremor Severity
          1. Spectral Energy
          2. Teager Energy
       3. Axial and Appendicular
       4. Asymmetry
    2. Paper: Quantifying Tremor Severity for DBS Patients Using TEMPO