• PARAMETER ESTIMATION IN AN LED-CAMERA VISIBLE LIGHT COMMUNICATION SYSTEM

      Borah, Deva K.; Curry, Elam; New Mexico State University (International Foundation for Telemetering, 2016-11)
      Visible light communication (VLC) is emerging as a complementary technology to radio frequency communication. Some of the benefits of VLC include reusable bandwidth, security and high potential data rates. VLC can also be used in user positioning. For both communication and positioning systems, knowledge of the VLC channel parameters is usually needed. This paper investigates the estimation of the light-emitting diode (LED) parameters and user positions. The performance of the proposed estimation technique is numerically studied. Cram´er Rao lower bound (CRLB) results are derived and compared with the results obtained from the proposed maximum likelihood estimator. The effect of channel estimation on overall communication performance in terms of symbol error rate (SER) is also studied. The SER results using the estimated channel closely match with known channel results.
    • THE PERFORMANCE TEST OF AN INITIAL iNET-LIKE RF NETWORK USING A HELICOPTER

      Ito, Sei; Honda, Takeshi; Tanaka, Toshihisa; Aoyama, Daiki; Kawasaki Heavy Industries, Ltd. (International Foundation for Telemetering, 2016-11)
      Through the use of early iNET-prototype IP Transceiver technology, Kawasaki Heavy Industries, Ltd. (KHI) has been able to communicate with a flight test vehicle. This technology provides a two-way high-capacity communication that has not been achieved with conventional telemetry. KHI has been authorized to use S-band IP Transceivers since 2014 in Japan. Then various communication tests have been performed. Last year we presented the result of the performance test of initial iNET-like RF network using a tethered aerostat at ITC. As the next phase, we have a plan of the test using a helicopter. The test is going to be conducted in September. We will present the results at ITC. This paper describes plans of the test which includes improved data backfill techniques.
    • A PROGRAM TO DISPLAY BIG DATA

      Grubbs, Elmer A.; Northern Arizona University (International Foundation for Telemetering, 2016-11)
      This paper describes a new way to look at telemetry data. We examine a way to use virtual reality to evaluate and view data from a large collection of stored signals. Each individual signal will have limits associated with it that allow us to determine whether any part of the signal exceeds those limits and if so what part(s) of the waveform contain these abnormalities. A program using virtual reality to illustrate the technique has been written and will be demonstrated as part of the conference presentation.
    • Protecting Telemetry Data from Compromise Learning from the Mistakes of the Breached!

      Kalibjian, Jeff; Hewlett Packard Enterprise (International Foundation for Telemetering, 2016-11)
      Information has value and as such any network based computer (whether that network touches the Internet or not) has the potential to be hacked. Telemetry data is not immune to the threat. While there are a myriad of security sensor and analytics tools available for entities to deploy in order to protect their IT networks and assets on those networks, sometimes overlooked is also the wealth of research data available regarding the etiology of breaches that reveal fascinating, sometimes counterintuitive insights in the best ways to configure and integrate security applications to protect the organization. After reviewing the latest research data regarding computer and IT network compromise, security strategies implied in the research data appropriate to the security challenges encountered in the telemetry post processing environment will be thoroughly examined providing tangible methodologies that may be employed to better protect organization telemetry post processing and IT infrastructures.
    • REAL TIME C BAND LINK BUDGET MODEL CALCULATION

      Rubio, Pedro; Fernandez, Francisco; Jimenez, Francisco; Airbus D&S (International Foundation for Telemetering, 2016-11)
      The purpose of this paper is to show the integration of the transmission gain values of a telemetry transmission antenna according to its relative position and integrate them in the C band link budget, in order to obtain an accuracy vision of the link. Once our C band link budget was fully performed to model our link and ready to work in real time with several received values (GPS position, roll, pitch and yaw) from the aircraft and other values from the Ground System (azimuth and elevation of the reception telemetry antenna), it was necessary to avoid a constant value of the transmitter antenna and estimate its values with better accuracy depending of the relative beam angles between the transmitter antenna and receiver antenna. Keeping in mind an aircraft is not a static telecommunication system it was necessary to have a real time value of the transmission gain. In this paper, we will show how to perform a real time link budget (C band).
    • A REPLACEMENT OF ETHERNET SWICTH FOR NETWORKED TELEMETRY SYSTEM

      Song, Jian; Zhu, Ximing; Beijing Zoweetech Ltd.; Zhongyuan Electronics Technology Institute (International Foundation for Telemetering, 2016-11)
      Ethernet is a common practice to reconstruct a networked telemetry system. However, Ethernet switch cannot best meet the requirement of data transportation in a telemetry system because of its asynchronous mode and the uncertainty of latency time. In addition, the temporal order of the telemetry data will be disrupted when using an Ethernet switch. A device similar to Ethernet switch is presented in this paper, which can transport data synchronously without losing the original temporal order of the telemetry data. Meantime, a special condition is arranged by the device that the timing signal could be transmit from the device to the receiver in a certain delay time, so a timing mechanism derived from IEEE 1588 PTP protocol could be adopted for high accuracy of timing and synchronous sampling control.
    • ROTARY-WING FLIGHT TESTS TO DETERMINE THE BENEFITS OF FREQUENCY AND SPATIAL DIVERSITY AT THE YUMA PROVING GROUND

      Diehl, Michael; Swain, Jason; Wilcox, Tab; Air Combat Systems Directorate (International Foundation for Telemetering, 2016-11)
      The United States (U.S.) Army Yuma Proving Ground (YPG) conducted a series of rotary-wing flight tests for the sole purpose of checking out Telemetry data link instrumentation. Four flights were conducted at YPG in February 2016 that built upon an earlier test flight conducted in June 2015. The most recent iteration of testing examined the benefits of frequency diversity on aircraft and the spatial diversity of receiving sites using existing hardware at YPG. Quantitative analysis from those flight results will be presented and include discussion on how results will affect future mission operations at YPG.
    • SELECTABLE TELEMETRY MODULE FOR INTERIOR BALLISTICS CHARACTERIZATION

      Granitzki, Richard F.; Sweeney, Patrick J.; Choi, Jin; Hoch, Daniel; Vega, Gilmer; US Army Armament Research Development and Engineering Center (International Foundation for Telemetering, 2016-11)
      The Telemetry Branch within the US Army’s Armament Research, Development and Engineering Center (ARDEC) has developed a miniature telemetry device that supports: live data, on-board recording (OBR), and delay repeat OBR telemetry functions in order to capture valuable interior ballistics sensor measurements of developmental munitions and weapons systems. This paper discusses the measurement capability of the STEEL (Selectable Telemetry Enhanced ELectronics) architecture and its typical integrated characteristics. The STEEL architecture has been demonstrated to reliably perform during live fire 155mm artillery and 120mm mortar testing environments. Results will be presented highlighting the electronics’ performance during these extreme environmental conditions.
    • SIMPLIFYING FLIGHT TEST CONFIGURATION WITH CONSTRAINTS

      Noonan, Patrick J.; Ibaroudene, Hakima; Whittington, Austin J.; Moodie, Myron L.; Southwest Research Institute (International Foundation for Telemetering, 2016-11)
      Configuring flight test systems can be a complex process due to the large number of choices that must be made. Making these choices requires system knowledge to build a working configuration in an efficient and timely manner. Historically, flight test systems have embedded this system knowledge in code. The limitation with these approaches is that any change or addition to the system knowledge is costly due to the significant work required to update and maintain the software. We see the philosophy of constraints as a promising path toward addressing these issues. In the context of flight test configuration, a set of constraints defines the limits of how a system may be configured to perform specific tasks. This paper describes an approach for simplifying configuration by moving the system knowledge out of hardcoded business rules and into a flexible architecture that leverages constraints for validation of system configurations.
    • Software Defined Radio MIMO Telemetry Transmitter

      Kosbar, Kurt; Becker, Brandon; Bennett, Charles; Missouri University of Science and Technology, Department of Electrical and Computer Engineering (International Foundation for Telemetering, 2016-11)
      This paper describes the development of a small, low-cost, and flexible telemetry transmitter that can be used for multiple-input multiple-output (MIMO) communication systems. In the intended application, the transmitter will collect data from sensors on small quad copters or drones, regarding the vehicle’s attitude, location, movement, and other flight data. This will be combined into a single data stream, and base-band modulation applied by a field programmable gate array (FPGA). The FPGA output will control a separate RF modulation board, which will generate a pair of RF signals suitable for use in a 2x2 MIMO system. The original application uses the 902- 928MHz ISM band. The modulation format can be altered by changing the software for the FPGA.
    • SOME INITIAL RESULTS FOR DATA-AIDED EQUALIZER EXPERIMENTS AT EDWARDS AFB

      Rice, Michael; Hogstrom, Christopher; Nash, Christopher; Ravert, Jeffrey; Cole-Rhodes, Arlene; Moazzami, Farzad; Saquib, Mohammad; Afran, Md. Shah; Perrins, Erik; Temple, Kip; et al. (International Foundation for Telemetering, 2016-11)
      This paper describes the results of flight tests designed to compare data-aided equalization to blind, adaptive equalization using SOQPSK-TG in aeronautical telemetry. The flight tests were conducted on 3 June 2016 at the Air Force Flight Test Center, Edwards AFB, at upper L band (1801.5 MHz) and at C band (4711.5 MHz). Five data-aided equalizers were implemented and compared to a commercially available blind equalizer. In addition, all equalized bit streams were compared to an unequalized reference. The results show that the blind equalizer tends to be either really good or really bad. In contrast, the data-aided equalizers tend to exhibit more graceful degradation. Which equalization method is “best” is not clear as of this writing. The answer depends on a number factors that will become clear as more data from the experiments is analyzed.
    • SPARSE CHANNEL ESTIMATION FOR AERONAUTICAL TELEMETRY

      Rice, Michael; Hogstrom, Christopher; Brigham Young University (International Foundation for Telemetering, 2016-11)
      This paper applies a compressed sensing (CS) algorithm to SOQPSK-TG waveform samples to reconstruct a sparse channel. The mean squared error (MSE) is computed between the estimated channel and the true channel. The estimated channel is then used in an equalized system and a bit error rate (BER) curve is calculated. The results are then compared to a Maximum Likelihood (ML) estimator. The CS estimate does not produce significant gains but it doesn’t break anything either.
    • Spectrum Access R&D (SARD) Program: Conformal C-Band/Multi-band Antenna Project

      Kujiraoka, Scott; Fielder, Russell; Apalboym, Maxim (International Foundation for Telemetering, 2016-11)
      The Conformal C-Band/Multi-band Antenna project will support the AWS-3 auction by providing the technology to integrate C-Band or multi-band telemetry(TM) antennas on test articles such as missiles, weapons, or aircraft. These test articles would then provide C-Band or multi-band TM data to ground station receivers that are relocated to the C-Band frequency range through the AWS-3 Spectrum Relocation Fund program. This project would advance the technology of antennas in the C-Band region for test article TM integration. Successful use of C-Band and Multi-Band antennas for aeronautical mobile telemetry (AMT) on test and training ranges is dependent on the advancement of key technologies. This paper will detail the technology areas being matured by this project as well as the capabilities to be demonstrated.
    • Study of Second-Order Memory Based LT Encoders

      Perrins, Erik; Shang, Luyao; University of Kansas, Department of Electrical Engineering & Computer Science (International Foundation for Telemetering, 2016-11)
      LT encoder design has always been a basic and crucial topic ever since the development of fountain codes. The memory based LT encoders (MBLTEs) aim at further improving the code performance by managing the input symbols’ degree distribution after an output symbols’ degree distribution is determined. Previous work has shown that the MBLTE has a faster decoder convergence and a lower bit error rate (BER) than the regular LT encoder with the belief propagation (BP) decoder over binary erasure channels (BECs). However, the study of MBLTEs is limited to first-order MBLTEs, higher-order MBLTEs have not been investigated yet. Therefore, in this paper we study the second-order MBLTE, and propose an algorithm for its realization. Simulation results show that our encoder outperforms the first-order MBLTE in terms of the BER. Our proposed second-order MBLTE performs better either with a short code or with a high erasure probability.
    • SYMBOL SET SELECTION IN GSSK MIMO SYSTEMS WITH CORRELATED ANTENNAS

      Borah, Deva K.; Shrestha, Mandip; New Mexico State University, Klipsch School of Elec. & Comp. Eng. (International Foundation for Telemetering, 2016-11)
      Generalized space shift keying (GSSK) is a transmission scheme where only antenna indices are used to send information from the transmitter to a receiver. This paper investigates the best symbol set selection problem in GSSK multiple-input-multiple-output (MIMO) systems when the transmit antennas are correlated. Although multiple antennas can increase data rate and signal quality without increasing the bandwidth, spatial correlations among the antennas highly affect the performance of the system. The idea here is to maximize the inter-symbol Euclidean distance to obtain the best symbol set. Recently such an algorithm has been proposed for the visible light communication (VLC) systems. This paper adopts this VLC algorithm for radio frequency (RF) communication systems. The results show that the proposed symbol set design can provide several dBs of gain in the symbol error rate (SER) performance over randomly selected symbol sets in GSSK systems.
    • TELEMETRY RECONSTRUCTION AND ANALYSIS USING VIRTUAL REALITY

      Verges, Katherine; Graham, Richard; NSWC Corona Division (International Foundation for Telemetering, 2016-11)
      Currently, telemetry analysis is visually disconnected from the system being analyzed; analysts look at a series of two dimensional functions plotted over time that represent everything that happens. As the digital age continues to evolve and grow, a new technology is emerging in the world of entertainment: Virtual Reality (VR). VR describes a system that uses a headset to create a completely manufactured environment for the user to utilize and explore. This technology can be harnessed in order to translate raw telemetry data into an all-inclusive image of a system being analyzed in a 3-dimensional (3D) format. It would allow an analyst to fully visualize results and better understand what is occurring and has the potential to remove some of the subjectivity that comes with analyzing functions in order to help scientists and engineers to more efficiently improve their products. VR technology could be applied in a variety of fields-- defense, medicine, biology, and many more—and could help pave the way to technical advancements for a better world.
    • TELEMETRY SYSTEM FOR REALTIME MONITORING OF AN OFFROAD RACECAR

      Marcellin, Michael; Boyer, Kyle; Brubaker, Laura; Everly, Kyle; Herriman, RIchard; Sackett, Mark; Tran, Huy; Univ Arizona, Dept Elect & Comp Engn (International Foundation for Telemetering, 2016-11)
      The University of Arizona Baja racing team competes annually in a grueling fourhour offroad endurance race which subjects vehicles to an array of obstacles such as jumps, boulders, and mud bogs. This paper examines the telemetering system created by the UA Baja Team to monitor a range of critical aspects of the car with the goal of detecting and identifying possible mechanical failures and areas with potential for improvement. Running on an Arduino Mega, the system stores all gathered data to an SD card and transmits it back to the pit wirelessly for realtime analysis.
    • TENA – ALLEVIATING MANPOWER AND OPERATIONAL COSTS WITHIN THE TELEMETRY COMMUNITY

      Hudgins, Gene; Poch, Keith; Secondine, Juana; TENA Software Development Activity (SDA) (International Foundation for Telemetering, 2016-11)
    • TOWARDS A NEW TRACKING ARCHITECTURE

      Busson, Francois; Pierozak, Jean-Guy; Richard, Hugues; Kipfer, Gerard; ZODIAC AEROSPACE; ZODIAC DATA SYSTEMS (International Foundation for Telemetering, 2016-11)
      A telemetry facility may connect numerous telemetry receivers to a single tracking antenna depending on the number of TM channels involved in the test and on the required redundancy. The tracking data, i.e. AM normalized analog signals extracted by the receivers from the TM signal and the AGC analog signals, are sent to the Antenna Control Unit (ACU) for tracking error calculation. The number of cables between receivers and ACU becomes important in some telemetry facilities and the tracking signals being analog, the distance must be limited. This paper proposes a new tracking architecture that moves from analog to digital links between receivers and ACU with the following main benefits:  Keeping the capability to acquire tracking data (AM&AGC) from several telemetry receivers,  Having more flexibility for integration,  Improving interoperability,  Providing availability of simultaneous tracking errors for enhanced tracking algorithms, for C-band tracking improvement for example.
    • Towards Real-Time CMA Equalization by using FFT for Signal Blocks transmitted over an Aeronautical channel

      Cole-Rhodes, Arlene; Moazzami, Farzad; Taiwo, Peter; Dossongui, Itie Serge Kone; Morgan State University, Dept Elect and Comp Eng (International Foundation for Telemetering, 2016-11)
      We consider the problem of equalizing data blocks of signals, which have been transmitted over an aeronautical channel using two different modulation schemes. The equalization is performed using the block-processing constant modulus algorithm (CMA), and in order to achieve real-time processing a Fast Fourier Transform (FFT) is used to compute the gradient of this cost function during equalization. The equalizer length is chosen to be five times of the channel length. For the first experiment, we present the result of equalizing a set of measured data, which was modulated and transmitted using the iNET packet structure with SOQPSK modulation. In this case, the CMA equalizer is first initialized using MMSE and the equalizer coefficients are then updated once, using each entire block (iNET packet). In the second experiment, we apply the FFT-based block processing equalizer to received data blocks of QPSK signals, which have been randomly generated and transmitted over an aeronautical channel. A modified constant modulus algorithm and alphabet matched algorithm (CMA + AMA) equalizer is used to recover these data blocks. For this case of QPSK signals, the equalizer performance is evaluated over 500 Monte Carlo runs, using the average symbol error rate (SER).