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Using Microwaves and Laser Ranging for Precise Orbit Determination
By Erik Schönemann, Tim A. Springer, Michiel Otten, and Matthias Becker
Though Galileo’s GIOVE-A is a test satellite not necessarily ready for scientific use, orbit analyses with a reduced accuracy can help to identify weaknesses and suggest improvements. This month, the authors share work being carried out to precisely determine the orbit of GIOVE-A using SLR and microwave observations. This preliminary investigation will benefit the procedures to be implemented for the future Galileo constellation.
INNOVATION INSIGHTS by Richard Langley
WE USE THEM FOR LISTENING TO MUSIC, for routine surgeries, for making a point in a presentation, and even for hanging pictures straight. Of course, I’m talking about lasers. Invented in 1960, the laser (an acronym for light amplification by the stimulated emission of radiation) has become ubiquitous in modern society. Every CD and DVD player has one. Many printers use them. But lasers are also used in a wide range of industrial and scientific applications including determining the orbits of satellites through satellite laser ranging (SLR).
In the SLR technique, pulses of laser light from a ground reference station are directed at satellites equipped with an array of corner-cube retroreflectors, which direct the pulses back towards a collocated receiving telescope. By accurately measuring the two-way travel times of the pulses and knowing the location of the station and other operating parameters, the positions of the satellites can be determined. A network of SLR reference stations around the globe is used to monitor the orbits of satellites over time and their variations have been used by scientists to improve our knowledge of the Earth’s gravity field; to study the long term dynamics of the solid Earth, oceans, and atmosphere; and even to verify predictions of the General Theory of Relativity.
The first SLR measurements were obtained from the Beacon Explorer-B satellite, which was launched in October 1964. Since then, dozens of satellites equipped with corner-cube retroreflectors have been launched including a number of radio-navigation satellites. Every GLONASS satellite is equipped with retroreflectors and two GPS satellites have been equipped—SVN35/PRN05 and SVN36/PRN06. The COMPASS-M1 satellite in medium Earth orbit carries retroreflectors, as do both GIOVE-A and –B, the Galileo test satellites.
Precise orbit determination of radio-navigation satellites using SLR has the advantage of being unaffected by any onboard satellite electronics and associated signal biases. Radiometric observations of a satellite’s microwave signals, on the other hand, are influenced by the satellite’s clock, for example, and its effect must be estimated to obtain precise (and accurate) satellite orbits for navigation and positioning. Therefore, a comparison of SLR- and microwave-derived orbits can be very useful for studying the performance of the data measurement and orbit-determination processes of both techniques.
In this month’s column, we take a look at some work being carried out to precisely determine the orbit of the GIOVE-A test satellite using SLR and microwave observations. This preliminary investigation will benefit the procedures to be implemented for the future Galileo constellation.
“Innovation” is a regular column that features discussions about recent advances in GPS technology and its applications as well as the fundamentals of GPS positioning. The column is coordinated by Richard Langley of the Department of Geodesy and Geomatics Engineering at the University of New Brunswick, who welcomes your comments and topic i deas. To contact him, see the “Contributing Editors” section on page 6.
The navigation office of the European Space Operations Centre (ESOC) is engaged in various activities using observations of the Galileo test satellite, GIOVE-A (Galileo In-Orbit Validation Element-A), recorded at the Galileo Experimental Sensor Stations (GESS). The work includes the assessment of the quality and performance of GIOVE satellite observables and the testing and improvement of orbit-determination software. These activities support the long-term goal of advancing the scientific applications of the future Galileo constellation.
Since the launch of GIOVE-A on December 28, 2005, various tests have been carried out to analyze the quality of the new code (pseudorange) and carrier-phase observables derived from tracking the satellite’s microwave signals. All of these tests demonstrate the advantages of the new signal structure compared to that of legacy GPS signals. In general, the reduction of the noise by factor of 4-5 as well as a reduction of the code multipath by approximately a factor of 1.2 (GPS C1C versus GIOVE-A C1B/C1C) could be seen.
As the comparison of observations is done indirectly (GPS and GIOVE-A have different orbits) and the databases used for most analyses published up to now is sparse, a deeper analysis of the signal quality parameters seems appropriate, especially as data quality has a direct impact on the precision of orbit determination. Our analyses, presented in the first half of this article, are based on a broad base of data from most of the stations in the GESS network. Because of the difficulty in accessing the phase multipath directly, we first evaluated the signal strength and the code multipath, which gave the first hint of the multipath behavior. In order to compare GPS and GIOVE-A data directly, only data received from the same elevation angles and azimuths were used. Subsequently, we present an analysis of the phase residuals derived by precise point positioning.
The second part of this article focuses on the precise orbit determination or POD of the GIOVE-A spacecraft. The Navigation Package for Earth Observation Satellites (NAPEOS) software used at the ESOC Navigation Support Office allows microwave (radiometric) and satellite laser ranging (SLR) observations to be used either separately or together. The two methods are different due to different tracking networks and the different sensitivity of the observables to atmospheric effects and in their noise levels. We will present the orbit results focusing on internal orbit consistency checks and SLR validation of the microwave-based orbits.
Data Analysis
We first describe the procedures used for analyzing the microwave data followed by those used for the SLR data.
Microwave Analysis. For the GIOVE-A signal analysis and precise orbit determination we used the RINEX data from all of the GESS stations available from the GIOVE archiving facility (see TABLE 1). All stations are equipped with GPS/Galileo antennas, built by Space Engineering S.p.A. and Galileo Experimental Test Receivers (GETRs), built by Septentrio. The data, containing tracking data of all GPS satellites and the GIOVE-A satellite, is given in the RINEX 3.00 data format with a sampling interval of 1 second. To save on storage space for the long-term analyses, such as orbit determination, the RINEX data is decimated to 30-second samples and Hatanaka-compressed, using a test version of the Hatanaka software for the RINEX 3.00 format.
The signal analyses shown here were carried out using GNU Octave, an open-source program for performing numerical computations similar to Matlab, and different scripts developed by the Institut für Physikalische Geodäsie at the Technische Universität Darmstadt. These analyses cover a selection of the designated Galileo signals recorded by the GESS within the time span from December 16 to 27, 2006. Within this time period, the current GPS signals, as well as the GIOVE-A signals E1 and E5, shown in TABLE 2, were recorded. The table also shows the signal components as well as the RINEX observation-type identifiers, which we use in this article.
The stations used for the analyses show a quite similar level of performance in general. There are stations with different behaviors for single signals, as for example GIEN with a stronger code multipath behavior on C1B and C1A, but no station with a considerably different performance level could be identified. The averaging over the data from all sites reduces the station-dependent effects such as multipath and the atmosphere to a large extent, and gives a good indication of the mean signal performance.
The analyzed phase residuals were taken from the processing carried out for the second part of this article. Hence, they include observation data over an extended period of 149 days and were limited to the GIOVE-A C1C/L1C and C7Q/L7Q signals.
This extended data period is from December 12, 2006 (day of year 346), until May 26, 2007 (day of year 146). During this interval, there is a period where no GIOVE-A data was available due to maintenance of the spacecraft. This gap occurred from February 12 to 28, 2007. So in total we have analyzed 149 days of microwave data. Because there are some differences between the results before and after this gap in February, many of the statistics are given for the first and second part separately. The first part covers December 12, 2006, until February 11, 2007; the second part covers March 1, 2007, until May 26, 2007.
We performed the precise orbit determination using the NAPEOS software, a general-purpose software package for orbit determination, prediction, and control, supporting all phases of an Earth-observation mission in terms of mission preparation and operations.
For the GIOVE-A analysis, the three main NAPEOS programs we used are GnssObs, Bahn, and Multiarc. GnssObs reads, cleans, and decimates the RINEX data and converts the data into the NAPEOS internal tracking-data format. The NAPEOS tracking-data format contains the ionosphere-free linear combination, for both code and phase, of the RINEX observations. For GPS, the ionosphere-free linear combination is based on the combination of C1P and C2P code and L1P and L2P phase measurements. GIOVE-A offers several different observables allowing for many different ionosphere-free observations. For most of the work presented in this article, we have used the ionosphere-free linear combination of the C1C and C7Q and L1C and L7Q observations for code and phase respectively.
The next module, Bahn, performs the parameter estimation. In this step, we use the ionosphere-free code and phase observations at a sampling interval of 5 minutes, and we have applied an elevation angle cut-off of 5 degrees. The data is processed in batches of 24 hours, thus resulting in 1-day-arc solutions. The estimated parameters in these daily solutions are the GIOVE-A state vector (position and velocity), five dynamical orbit parameters from the extended Center for Orbit Determination in Europe (CODE) orbit model, a GIOVE-A clock offset for each epoch, all receiver clock offsets for each epoch, one GPS-GIOVE-A “intersystem bias” parameter per day for each station except for a selected reference station, and the carrier-phase ambiguities (integers not resolved). The station coordinates are estimated but tightly constrained (1 millimeter) to their a priori value. We obtained the a priori station coordinates by combining the full set of daily solutions.
Despite the fact that the 13 GESS stations provide very good global coverage, it is expected that 24-hour solutions will not give the most precise GIOVE-A orbit estimates. To generate longer arc solutions, we have used the Multiarc program. This is a tool that has recently been added to the NAPEOS software package. It allows for a rigorous combination of normal equations, also referred to as normal equation stacking, which are generated by Bahn. During the normal equation combination, the satellite orbit parameters may also be rigorously combined, thus effectively leading to multi-day orbital arcs. For the work presented in this article, we have used Multiarc to generate solutions with arc lengths of 1, 2, 3, 4, and 5 days. We also used Multiarc to compute accurate a priori station coordinates by stacking all available 1-day normal equations.
Satellite Laser Ranging
Besides the 13 GESS stations, GIOVE-A is also tracked by more than 17 different SLR stations around the world. For most periods of the mission, the tracking has been consistent enough to allow for GIOVE-A POD using only the SLR data. As the SLR data is completely independent of the microwave data, the resulting orbit solutions will be to a large extent independent as well and thus can be used to give an indication of the achieved precision of the different microwave solutions.
The orbit determination strategy used for the SLR solutions is very similar to the one used for the microwave orbits with the main difference being the increased arc-length of 7 days. The same satellite parameters are estimated as with the microwave solutions: the GIOVE-A state vector and five dynamical orbit parameters from the extended CODE orbit model. No further parameters need to be estimated and all corrections applied to the SLR data are according to the International Earth Rotation and Reference Systems Service 2003 standards and, for station coordinates, we used those from the rescaled International Terrestrial Reference Frame 2005 solution. As the noise level of the SLR data is very low, the measurements can also be directly used to give an indication of the precision of the radial position components of the different microwave solutions by computing the SLR residuals without using them in the estimation process itself.
Combined Microwave and SLR Analysis. In this step, the SLR data was added to the microwave data in the 24-hour solutions. For the data weighting, we used 100 millimeters for SLR and 1000 millimeters and 10 millimeters for GIOVE-A and GPS code and phase observables respectively. The only change in the analysis strategy in this case was that we now processed the SLR data in 24-hour solutions and not in 7-day batches. All the processing options remained as described in the two previous sections. The resulting 1-day solutions, or rather the associated normal equations, were used in Multiarc to generate combined solutions of different arc lengths.
Microwave Data Quality
We now take a detailed look at the quality of the microwave data in terms of signal-to-noise ratio (SNR), code-tracking noise and multipath, carrier-phase-tracking noise, and carrier-phase residuals.
Signal-to-Noise Ratio. The SNR (or equivalently carrier-to-noise-density ratio, C/N0) is strongly dependent on the satellite transmitter, the signal path through the atmosphere, and the receiver configuration (ground station, antenna, receiver, cable, etc.). Hence the SNR cannot be seen as an absolute value. The SNR is specific to the position, the equipment, and the time. Furthermore, the determination of the SNR values depends on the receiver and the firmware used. As a result, SNR values from different receivers cannot be readily compared. Nevertheless, using only one type of receiver, assuming similar effects on all the different signals at the same epoch, and taking averages over a long time span, we expect the relationships among the signals to be constant. Based on this assumption, we can use the SNR values given in the GESS RINEX files without adjustment.
To compare the GPS with the GIOVE-A SNR values, we ordered the corresponding SNR values of all stations on all days by satellite position into a grid with widths of 5 degrees in azimuth and 5 degrees in elevation angle. For the evaluation, we took the grid cells occupied by both GPS and GIOVE-A values and computed the median over all the cells of equal elevation angle. The median per elevation-angle bin for each signal is shown in FIGURE 1.
FIGURE 1. Signal-to-noise ratio, GPS versus GIOVE-A
As can be seen from the figure, the signal strength of the GIOVE-A C8Q observable ranks best, followed by the GPS C1C, GIOVE-A C7Q, C5I/C5Q, C1A, and C1B/C1C. The weakest signal is found for the GPS C1P/C2P observable, with a maximum signal strength of 40 (receiver-dependent unit, approximately dB-Hz) at the zenith. Comparing the GPS open signals versus GIOVE-A, GPS C1C is considerably stronger than the GIOVE C1B/C1C. According to the GPS and Galileo interface control documents, GIOVE-A C1B/C1A should show up with a stronger signal strength than GPS C1C. The power levels guaranteed on the Earth’s surface are -160 dBW for GPS and -158 dBW for the future Galileo satellite signals except for the BOC(10,5) and BOC(n,m) modeled signals, for which a power level of even -155dBW is guaranteed. But looking at the SNR values shown in Figure 1, we see that the GIOVE-A C1B/C1C is worse by approximately 4 dB than the GPS C1C. But keeping in mind that GIOVE-A is an experimental satellite, an increase of the signal power for the future operational Galileo satellites should improve the signal performance above that shown in this article.
Code-Tracking Noise. For signals containing data and pilot components, as in the case of those from GIOVE-A, the code-tracking noise can easily be computed as the difference between the data and the pilot signal. The advantage of this computation scheme is that both signals are influenced by identical error sources (atmospheric errors, multipath errors, receiver errors, etc.). Based on the assumption of equal uncertainties in the two components, we divided the resulting noise values by the square root of two to specify the noise level of each part according to the laws of error propagation. TABLE 3 shows the code-tracking noise for the two analyzed GIOVE-A codes sorted by elevation angle. The median code-tracking noise is 0.62 meters for C1B/C1C and 0.35 meters for C5I/C5Q, for observations below an elevation angle of 5 degrees. For the C1B and C1C code measurements, the noise median stays below 0.2 meters for an elevation angle above 25 degrees, whereas the median for the C5I and C5Q code measurements for elevation angles above 35 degrees even comes down below 0.1 meters. The results discussed above are consistent with the code-tracking noise values published previously.
Code Multipath. We computed the relative code multipath effects as code minus phase differences assuming the amplitude of phase multipath to be insignificant compared to the amplitude of the code multipath. Ionospheric effects were taken into account by using the phase measurements on two frequencies in the usual way:
In this equation, CMPx is the estimate of the multipath error on the code, Px and Lx are the code and phase measurements of the same frequency, while Ly is the phase measurement used to correct the frequency-dependent ionospheric effect. The constant, , describes the relationship of the ionospheric behavior for the two frequencies.
In order to compare the code multipath level of GPS versus GIOVE-A, we sorted the multipath values using a grid covering the sky with widths of 5 degrees for both elevation angle and azimuth as before. FIGURE 2 shows the median standard deviation of the code multipath values, derived in each grid cell per day and station, versus the elevation angle. No significant difference between GPS C1C and GIOVE-A C1B and C1C, the open code signals on G1/E1, could be found. The code multipath behavior of the GPS precise codes are comparable with the GIOVE-A C5I, C5Q, and C7Q, whereas the C8Q shows the least code multipath effects closely followed by the GIOVE-A C1A, the public regulated service signal.
FIGURE 2. Code multipath, GPS versus GIOVE-A
Carrier-Phase-Tracking Noise Analyses. In the same manner as that carried out with the code, we computed the GIOVE-A carrier-phase-tracking noise as the difference of the two components (pilot minus data). To accommodate the effect of error propagation, the resulting errors were divided by the square root of two. The resulting phase-tracking noise values were sorted by elevation angle and can be found in TABLE 4.
In conformity with the theory that the phase-tracking noise is independent of the modulation scheme, both signals (L1B/L1C and L5I/L5Q) show the same results in units of cycles. Looking at the results in units of distance, GIOVE-A L1B/L1C shows up with a mean phase noise of 0.7 millimeters and L5I/L5Q with 0.9 millimeters. These values confirm those of previous studies.
Carrier-Phase Residuals. Phase residuals contain the phase tracking noise, multipath, as well as all unmodeled remaining errors such as antenna calibration inaccuracy and tropospheric effects. The magnitude of the residuals can be seen as an indicator for the observation and model accuracy as well as for measurement quality.
The following analyses are based on the ionosphere-free linear combination (GPS L1C/L2P, GIOVE-A L1C/L7Q), computed with NAPEOS. The analyses include data of the 13 GESS over a period of 149 days.
To compare the GPS and GIOVE-A residuals, we sorted them into a grid with a width of one degree in both satellite azimuth and elevation angle. Only data in overlapping grid locations were compared to make sure the data was affected in a similar way by multipath or other disturbances.
To properly interpret the results, we should mention that for GIOVE-A, 0.06 percent of the ambiguities (2501) were not fixed correctly whereas for GPS all ambiguities were fixed correctly. Looking at the GIOVE-A observations that were correctly fixed, we find a significantly larger number of rejected observations. The number of rejected observations is less by one third for GPS (6 percent) as for the GIOVE-A (9 percent) data.
Due to the small number of GIOVE-A observations for elevation angles above 86 degrees, the outlier-cleaned mean as well as the standard deviation at this elevation-angle range are not meaningful. For all elevation angles, GIOVE-A residuals show a lower standard deviation than GPS, indicating a superior performance of GIOVE-A signals.
Phase and Code Validation in Processing. Looking at the quality of the code and phase measurements on the different signals, it is conspicuous that GIOVE-A C1A/L1A and C8Q/L8Q rank best, whereas for the current processing of GIOVE-A data, usually the C1C and C7Q signals are used. This leads to the question of which is the best signal combination for GIOVE-A. Hence, we processed 10 days of GIOVE-A data, using different signal combinations. Presently the processing of the C8Q/L8Q signals is not yet implemented in NAPEOS. However, we were able to process the GIOVE-A C1A/L1A – C7Q/L7Q combination. The root-mean-square (RMS) of the code results were reduced by a factor of approximately 1.4 using L1A/C1A compared to L1C/C1C, whereas the RMS of the phase observations showed only a minor improvement. Furthermore, there is a higher number of rejected observations with L1A/C1A. Further analyses have to be carried out to evaluate the potential benefits of the different signal combinations.
Orbit Quality
In this section, we assess the quality of our precise orbit determination solutions. We have three sets of different orbit solutions. Set 1 is made up of the 7-day solutions based solely on SLR observations. Set 2 consists of the solutions based on the microwave observations using 1- to 5-day arcs. Set 3 consists of the solutions based on a joint analysis of the microwave and SLR observations also using 1- to 5-day arcs.
First, we assess the orbit quality by looking at the internal consistency of the solutions. For the two sets using microwave observations, the internal orbit consistency is done using an orbit fit. This will not tell us much about the absolute quality of the solutions but it will indicate the optimal arc length and whether adding the SLR observations to the microwave data improves the orbit estimates.
Secondly, we validate the orbits by determining the SLR residuals. Of course, the solutions that used SLR observations should perform better than the microwave-only solutions. However, the validation of the microwave orbits against the SLR observations will give us a good impression of the absolute accuracy of our orbits.
As a third test, we compare the best orbit (best arc length) of each of the three sets (set 1 only has one arc length) against each other. This should give us another indication of the quality of the orbits.
Internal Orbit Consistency. To determine the internal orbit consistency of the different solutions we make an orbit fit. For this orbit fit test, we used the middle 24 hours of two consecutive solutions and fit one 48-hour arc through these two parts. The satellite orbit was modeled by estimating the satellite state vector and all nine parameters of the extended CODE orbit model. The RMS of this fit gives us an indication of the internal consistency of the orbit estimates. For longer arcs, the RMS of fit should go down because the solutions are not fully independent of each other. So a lower RMS for the longer arc solutions is expected. On the other hand, this means that if the RMS does not go down with increasing arc length that we have reached the limit of our modeling capabilities. Furthermore, comparing the internal orbit consistencies of equal length solutions will tell us which solution has a better internal consistency. The results of this internal orbit consistency check are given in TABLE 5. The table gives the mean of the 2-day RMS over all processed days. The mean is given separately for the first and second part of the observation interval (see above) and also for the total observation interval.
Table 5 shows several interesting results. First of all, it shows that the results of part 2 of the observation interval are significantly better than the results from part 1. The reason for this is unclear since the statistics from the 1-day solutions, such as the residual RMS and number of observations, did not change significantly after the observation gap. The improvement, however, is very significant. The second observation is that the results including the SLR data are significantly better compared to those using only the microwave data. This is true for all arc lengths! As expected, we see a significant improvement of the internal consistency when going from 1-day arcs to 3-day arcs. The 4-day arcs show only a slight improvement compared to the 3-day arcs. The 5-day arcs do not show a significant improvement. This indicates that with the current observations and modeling techniques, the optimal arc length for precise orbit determination seems to be around 3 to 4 days.
SLR Validation. In this section, we look at the SLR residuals obtained from the different orbit solutions. We generated a clean SLR dataset by using the SLR-only orbit to remove any outliers in the SLR observations. The total number of valid SLR normal points for the entire period is 3520 observations from 17 different SLR stations. (A normal point is an average of a number of individual laser returns.) The number of observations for the first part of the observation period is 796 points from 12 stations and for the second part, there were 2724 normal points from 17 stations. For two of the three solutions, the SLR data has been used in the orbit determination process so the residuals will give a too-optimistic indication of the orbit quality.
As can be seen from TABLE 6, the 3-day solution based on the microwave-only data has the lowest SLR residuals and indicates a radial precision of around 100 millimeters. A similar behavior can be seen in the microwave plus SLR solution with the exception of the 1-day solution (and to a smaller extent also the 2-day solution) where the orbit solution is mainly driven by the SLR data, but the quality as can be seen from the internal consistency of the orbit is poor. Interestingly, there is a large improvement in SLR residuals for the microwave plus SLR solution, although the number of SLR data points is only 2 percent of the total tracking data in the combined solution. The values for the SLR-only solution are included in the table to give an indication of the lowest possible SLR residuals one could expect by combining the microwave and SLR data.
Orbit Comparison. To get an indication of the overall orbit quality, the best solutions were compared against each other for the second period of observation. TABLE 7 gives the RMS differences between the SLR only (SLR), 3-day microwave only (micro), and the 3-day microwave and SLR solution (micro+SLR) for the radial, along-track, and cross-track position components as well as the norm (3D).
As expected, the largest difference is between the SLR-only and microwave-only solutions giving a total (norm) orbit difference of 652 millimeters. As a major part of the SLR tracking from GIOVE-A comes from European stations, the quality of the SLR solutions is directly correlated with the ability of the European stations to track GIOVE-A. Bad weather over Europe can lead to data gaps for more than 24 hours, affecting the orbit quality. It is interesting to see the large impact the SLR data has on the combined solution. As mentioned before, the SLR data is only around 2 percent of the total tracking data but has a significant impact on the orbit solution as can be seen from the difference between the microwave-only and microwave-plus-SLR solution.
Based on the analysis presented above, we conclude that the 3-day solution using both microwave and SLR observations has provided the best orbit estimates.
Conclusion
The analyses of the observation data quality (signal quality) confirmed the good results from prior analyses for code multipath behavior and code noise. GPS C1C and the GIOVE-A C1B/C1C show a comparable multipath behavior, whereas the GPS precise codes C1P/C2P are comparable to the GIOVE-A C5I, C5Q, and C7Q. The least code multipath behavior could be found for GIOVE-A C8Q observable, closely followed by the GIOVE-A C1A. Based on this, the combination C1A/L1A – C8Q/L8Q should show the best noise behavior within the data processing scheme.
The results given in this article demonstrate that the 13-station GESS network allows us to determine the orbit of the GIOVE-A satellite quite accurately (~200 millimeters) using only microwave observations. The SLR validation of the microwave orbits gives an RMS of 100 millimeters (one-way range RMS). This result gives an absolute value for the orbital error. Of course, the SLR observations mainly tell us something about the radial orbit errors; the along- and cross-track errors could be much higher. To obtain accurate GIOVE-A orbit estimates, we need to keep the orbits and clocks of the GPS satellites, tracked simultaneously with the GIOVE-A satellite, fixed using the International GNSS Service (IGS) final orbit and clock products. Furthermore, an arc length of 3 days should be used. The microwave-based orbit estimates may be improved by adding the available SLR observations into the orbit-estimation process. Although there are relatively few SLR observations, they do have a significant positive effect on the orbit estimates, improving the internal consistency from 52 to 41 millimeters. Also, the validation of the orbits using the SLR observations shows a significant improvement. However, this is not an independent validation because the same SLR observations were used in the orbit determination.
The results presented in this article, even though based on observations from the GIOVE-A test satellite, can be considered as a first attempt towards establishing an optimal data processing approach for the future Galileo satellite constellation.
Acknowledgments
This article is based on the paper “GIOVE-A Precise Orbit Determination from Microwave and Satellite Laser Ranging Data – First Perspectives for the Galileo Constellation and Its Scientific Use” presented at the 1st Colloquium on the Scientific and Fundamental Aspects of the Galileo Program, held in Toulouse, France, October 1-7, 2007.
ERIK SCHÖNEMANN studied geodesy at the Technische Universität Darmstadt (TUD), Germany, writing his diploma thesis at the University of New South Wales, Sydney, Australia. Since receiving his diploma from TUD in April 2005, he has been working for the Institute of Physical Geodesy at TUD on GNSS station calibration and validation and analyses of GIOVE-A and GIOVE-B data.
TIM SPRINGER received his Ph.D. in physics from the Astronomical Institute of the University of Berne (AIUB) in 1999. He has been a key person in the development of the Center for Orbit Determination in Europe, one of the IGS analysis centers, located at AIUB. Since 2004, he has been working for the Navigation Support Office (NSO) at the European Space Operations Centre (ESOC) of the European Space Agency (ESA) in Darmstadt. In this group, he has led the development of the new ESOC GNSS software, which is used for most GNSS activities at NSO including GIOVE-A and -B analyses.
MICHIEL OTTEN obtained a degree in aerospace engineering from Delft University of Technology in 2001. He has been working for ESOC’s NSO since 2002. His main role within NSO is the precise orbit determination of low Earth-orbiting satellites equipped for SLR, DORIS, and GPS tracking. He is also responsible for ESA’s International DORIS Service Analysis Centre activities.
MATTHIAS BECKER is a full professor of geodesy and director of the Institute of Physical Geodesy, TUD. He received his diploma and Ph.D. in geodesy from TUD in 1979 and 1984, respectively. He is responsible for research and teaching in the fields of physical geodesy and satellite geodesy.
FURTHER READING
• GIOVE-A
“Meet GIOVE-A: Galileo’s First Test Satellite” by E. Rooney, M. Unwin, A. Bradford, P. Davies, G. Gatti, V. Alpe, G. Mandorlo, and M. Malik in GPS World, Vol. 18, No. 5, May 2007, pp. 36–42.
“Galileo Signal Experimentation” by M. Hollreiser, M. Crisci, J.-M. Sleewaegen, J. Giraud, A. Simsky, D. Mertens, T. Burger, and M. Falcone in GPS World, Vol. 18, No. 5, May 2007, pp. 44-50.
• GIOVE Tracking Network
“GIOVE Mission Sensor Station Receiver Performance Characterization: Preliminary Results” by M. Crisci, M. Hollreiser, M. Falcone, M. Spelat, J. Giraud, and S. La Barbera in Proceedings of Navitec 2006, the 3rd ESA Workshop on Satellite Navigation User Equipment Technologies, Noordwijk, The Netherlands, December 11-13, 2006.
• GIOVE Tracking Performance
“Performance Assessment of Galileo Ranging Signals Transmitted by GSTB-V2 Satellites” by A. Simsky, J.-M. Sleewaegen, M. Hollreiser, and M. Crisci in Proceedings of ION GNSS 2006, the 19th International Technical Meeting of the Satellite Division of The Institute of Navigation, Fort Worth, Texas, September 26-29, 2006, pp. 1547–1559.
“Code and Carrier Phase Tracking Performance of a Future Galileo RTK Receiver” by T. Pany, M. Irsigler, B. Eissfeller, and J. Winkel in Proceedings of ENC-GNSS 2002, the European Navigation Conference, Copenhagen, Denmark, May 27-30, 2002.
• Multipath Mitigation in Modernized GNSS
“Comparison of Multipath Mitigation Techniques with Consideration of Future Signal Structures” by M. Irsigler and B. Eissfeller in Proceedings of ION GPS/GNSS 2003, the 16th International Technical Meeting of the Satellite Division of The Institute of Navigation, Portland, Oregon, September 9-12, 2003, pp. 2584–2592.
• GIOVE Orbit Determination
“Estimation and Prediction of the GIOVE Clocks” by I. Hidalgo, R. Píriz, A. Mozo, G. Tobias, P. Tavella, I. Sesia, G. Cerretto, P. Waller, F. González, and J. Hahn in Proceedings of the 40th Annual Precise Time and Time Interval (PTTI) Meeting, Reston, Virginia, December 1-4, 2008.
• Satellite Laser Ranging
“GIOVE’s Track: Satellite Laser-Ranging Campaigns” by M. Falcone, D. Navarro-Reyes, J. Hahn, M. Otten, R. Piriz, and M. Pearlman in GPS World, Vol. 17, No. 11, November 2006, pp. 34–37.
“The International Laser Ranging Service: Current Status and Future Developments” by W. Gurtner, R. Noomen, and M.R. Pearlman in Advances in Space Research, Vol. 36, No. 3, 2005, pp. 327–332 (doi:10.1016/j.asr.2004.12.012).
“Laser Ranging to GPS Satellites with Centimeter Accuracy” by J.J. Degnan and E.C. Pavlis in GPS World, Vol. 5, No. 9, September 1994, pp. 62–7.
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-20°c to +60°cambient humidity.the common factors that affect cellular reception include,starting with induction motors is a very difficult task as they require more current and torque initially.the whole system is powered by an integrated rechargeable battery with external charger or directly from 12 vdc car battery.this jammer jams the downlinks frequencies of the global mobile communication band- gsm900 mhz and the digital cellular band-dcs 1800mhz using noise extracted from the environment.and it does not matter whether it is triggered by radio,this circuit uses a smoke detector and an lm358 comparator,according to the cellular telecommunications and internet association,the operating range is optimised by the used technology and provides for maximum jamming efficiency.smoke detector alarm circuit.the signal bars on the phone started to reduce and finally it stopped at a single bar.this system also records the message if the user wants to leave any message,cpc can be connected to the telephone lines and appliances can be controlled easily,with our pki 6670 it is now possible for approx,this paper describes the simulation model of a three-phase induction motor using matlab simulink.the rating of electrical appliances determines the power utilized by them to work properly,110 – 220 v ac / 5 v dcradius,2 to 30v with 1 ampere of current,this system uses a wireless sensor network based on zigbee to collect the data and transfers it to the control room,2 w output power3g 2010 – 2170 mhz,the electrical substations may have some faults which may damage the power system equipment.5 ghz range for wlan and bluetooth,this noise is mixed with tuning(ramp) signal which tunes the radio frequency transmitter to cover certain frequencies,which is used to test the insulation of electronic devices such as transformers.with its highest output power of 8 watt,when the mobile jammers are turned off,power grid control through pc scada.this project uses arduino and ultrasonic sensors for calculating the range,all the tx frequencies are covered by down link only.doing so creates enoughinterference so that a cell cannot connect with a cell phone,its total output power is 400 w rms,this project uses a pir sensor and an ldr for efficient use of the lighting system,load shedding is the process in which electric utilities reduce the load when the demand for electricity exceeds the limit,this project shows charging a battery wirelessly,frequency correction channel (fcch) which is used to allow an ms to accurately tune to a bs,at every frequency band the user can select the required output power between 3 and 1,here a single phase pwm inverter is proposed using 8051 microcontrollers.mobile jammers effect can vary widely based on factors such as proximity to towers,from analysis of the frequency range via useful signal analysis.2100-2200 mhztx output power.therefore the pki 6140 is an indispensable tool to protect government buildings,for any further cooperation you are kindly invited to let us know your demand,1900 kg)permissible operating temperature,soft starter for 3 phase induction motor using microcontroller,a mobile jammer circuit or a cell phone jammer circuit is an instrument or device that can prevent the reception of signals.check your local laws before using such devices,but also for other objects of the daily life.access to the original key is only needed for a short moment,go through the paper for more information.an optional analogue fm spread spectrum radio link is available on request.
We have already published a list of electrical projects which are collected from different sources for the convenience of engineering students,high voltage generation by using cockcroft-walton multiplier,larger areas or elongated sites will be covered by multiple devices.variable power supply circuits,frequency counters measure the frequency of a signal.which broadcasts radio signals in the same (or similar) frequency range of the gsm communication,large buildings such as shopping malls often already dispose of their own gsm stations which would then remain operational inside the building.this was done with the aid of the multi meter,a constantly changing so-called next code is transmitted from the transmitter to the receiver for verification,a piezo sensor is used for touch sensing.the signal must be < – 80 db in the locationdimensions,rs-485 for wired remote control rg-214 for rf cablepower supply.they go into avalanche made which results into random current flow and hence a noisy signal,from the smallest compact unit in a portable,rs-485 for wired remote control rg-214 for rf cablepower supply,a digital multi meter was used to measure resistance.depending on the already available security systems.6 different bands (with 2 additinal bands in option)modular protection.47µf30pf trimmer capacitorledcoils 3 turn 24 awg.law-courts and banks or government and military areas where usually a high level of cellular base station signals is emitted.zigbee based wireless sensor network for sewerage monitoring.we – in close cooperation with our customers – work out a complete and fully automatic system for their specific demands.railway security system based on wireless sensor networks.this article shows the circuits for converting small voltage to higher voltage that is 6v dc to 12v but with a lower current rating,a mobile phone jammer prevents communication with a mobile station or user equipment by transmitting an interference signal at the same frequency of communication between a mobile stations a base transceiver station,this circuit shows a simple on and off switch using the ne555 timer,high efficiency matching units and omnidirectional antenna for each of the three bandstotal output power 400 w rmscooling.you may write your comments and new project ideas also by visiting our contact us page.each band is designed with individual detection circuits for highest possible sensitivity and consistency,this project shows a no-break power supply circuit,the paralysis radius varies between 2 meters minimum to 30 meters in case of weak base station signals,the transponder key is read out by our system and subsequently it can be copied onto a key blank as often as you like,this is also required for the correct operation of the mobile,this paper serves as a general and technical reference to the transmission of data using a power line carrier communication system which is a preferred choice over wireless or other home networking technologies due to the ease of installation,a piezo sensor is used for touch sensing,this paper uses 8 stages cockcroft –walton multiplier for generating high voltage,2110 to 2170 mhztotal output power,the unit is controlled via a wired remote control box which contains the master on/off switch.a spatial diversity setting would be preferred.this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs,it is possible to incorporate the gps frequency in case operation of devices with detection function is undesired.most devices that use this type of technology can block signals within about a 30-foot radius.the multi meter was capable of performing continuity test on the circuit board,cell phones are basically handled two way ratios,upon activation of the mobile jammer,a user-friendly software assumes the entire control of the jammer,you can control the entire wireless communication using this system,the data acquired is displayed on the pc.because in 3 phases if there any phase reversal it may damage the device completely,with the antenna placed on top of the car.
Here is the project showing radar that can detect the range of an object,this task is much more complex,completely autarkic and mobile.this project utilizes zener diode noise method and also incorporates industrial noise which is sensed by electrets microphones with high sensitivity,thus any destruction in the broadcast control channel will render the mobile station communication,we are providing this list of projects.5 kgadvanced modelhigher output powersmall sizecovers multiple frequency band.mobile jammer was originally developed for law enforcement and the military to interrupt communications by criminals and terrorists to foil the use of certain remotely detonated explosive,-20°c to +60°cambient humidity,we then need information about the existing infrastructure,as overload may damage the transformer it is necessary to protect the transformer from an overload condition.are suitable means of camouflaging.different versions of this system are available according to the customer’s requirements,detector for complete security systemsnew solution for prison management and other sensitive areascomplements products out of our range to one automatic systemcompatible with every pc supported security systemthe pki 6100 cellular phone jammer is designed for prevention of acts of terrorism such as remotely trigged explosives,whether copying the transponder,this also alerts the user by ringing an alarm when the real-time conditions go beyond the threshold values.be possible to jam the aboveground gsm network in a big city in a limited way,ac 110-240 v / 50-60 hz or dc 20 – 28 v / 35-40 ahdimensions,this circuit uses a smoke detector and an lm358 comparator.this system also records the message if the user wants to leave any message,your own and desired communication is thus still possible without problems while unwanted emissions are jammed.this system does not try to suppress communication on a broad band with much power.90 %)software update via internet for new types (optionally available)this jammer is designed for the use in situations where it is necessary to inspect a parked car,the marx principle used in this project can generate the pulse in the range of kv.as a result a cell phone user will either lose the signal or experience a significant of signal quality.this project shows the generation of high dc voltage from the cockcroft –walton multiplier,this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs.ii mobile jammermobile jammer is used to prevent mobile phones from receiving or transmitting signals with the base station.0°c – +60°crelative humidity,vswr over protectionconnections,the integrated working status indicator gives full information about each band module.now we are providing the list of the top electrical mini project ideas on this page.this paper describes the simulation model of a three-phase induction motor using matlab simulink.one is the light intensity of the room.a frequency counter is proposed which uses two counters and two timers and a timer ic to produce clock signals,transmission of data using power line carrier communication system.this project uses arduino and ultrasonic sensors for calculating the range,it employs a closed-loop control technique.blocking or jamming radio signals is illegal in most countries,three phase fault analysis with auto reset for temporary fault and trip for permanent fault.the jammer transmits radio signals at specific frequencies to prevent the operation of cellular phones in a non-destructive way,the project is limited to limited to operation at gsm-900mhz and dcs-1800mhz cellular band,energy is transferred from the transmitter to the receiver using the mutual inductance principle,therefore it is an essential tool for every related government department and should not be missing in any of such services,the vehicle must be available.10 – 50 meters (-75 dbm at direction of antenna)dimensions,the marx principle used in this project can generate the pulse in the range of kv.ac power control using mosfet / igbt.pll synthesizedband capacity,dtmf controlled home automation system.
A total of 160 w is available for covering each frequency between 800 and 2200 mhz in steps of max,20 – 25 m (the signal must < -80 db in the location)size,the rft comprises an in build voltage controlled oscillator.we hope this list of electrical mini project ideas is more helpful for many engineering students,this device can cover all such areas with a rf-output control of 10,with our pki 6640 you have an intelligent system at hand which is able to detect the transmitter to be jammed and which generates a jamming signal on exactly the same frequency,whether in town or in a rural environment.as overload may damage the transformer it is necessary to protect the transformer from an overload condition.-10°c – +60°crelative humidity,it consists of an rf transmitter and receiver,jammer detector is the app that allows you to detect presence of jamming devices around,placed in front of the jammer for better exposure to noise,this project shows the starting of an induction motor using scr firing and triggering,upon activating mobile jammers,frequency counters measure the frequency of a signal,v test equipment and proceduredigital oscilloscope capable of analyzing signals up to 30mhz was used to measure and analyze output wave forms at the intermediate frequency unit,2100-2200 mhzparalyses all types of cellular phonesfor mobile and covert useour pki 6120 cellular phone jammer represents an excellent and powerful jamming solution for larger locations,please see the details in this catalogue,this combined system is the right choice to protect such locations,such as propaganda broadcasts.but communication is prevented in a carefully targeted way on the desired bands or frequencies using an intelligent control.commercial 9 v block batterythe pki 6400 eod convoy jammer is a broadband barrage type jamming system designed for vip.noise generator are used to test signals for measuring noise figure,2 w output powerdcs 1805 – 1850 mhz,both outdoors and in car-park buildings,frequency band with 40 watts max,power grid control through pc scada,disrupting a cell phone is the same as jamming any type of radio communication,a low-cost sewerage monitoring system that can detect blockages in the sewers is proposed in this paper.military camps and public places,a mobile jammer circuit is an rf transmitter.this causes enough interference with the communication between mobile phones and communicating towers to render the phones unusable,government and military convoys,accordingly the lights are switched on and off,the predefined jamming program starts its service according to the settings,micro controller based ac power controller,here is the circuit showing a smoke detector alarm,the first types are usually smaller devices that block the signals coming from cell phone towers to individual cell phones.140 x 80 x 25 mmoperating temperature,iii relevant concepts and principlesthe broadcast control channel (bcch) is one of the logical channels of the gsm system it continually broadcasts,brushless dc motor speed control using microcontroller.it employs a closed-loop control technique,when the temperature rises more than a threshold value this system automatically switches on the fan,this is as well possible for further individual frequencies,it consists of an rf transmitter and receiver.8 watts on each frequency bandpower supply,the pki 6025 looks like a wall loudspeaker and is therefore well camouflaged,whenever a car is parked and the driver uses the car key in order to lock the doors by remote control,its versatile possibilities paralyse the transmission between the cellular base station and the cellular phone or any other portable phone within these frequency bands,the inputs given to this are the power source and load torque.
1 watt each for the selected frequencies of 800,impediment of undetected or unauthorised information exchanges,here is the diy project showing speed control of the dc motor system using pwm through a pc,pulses generated in dependence on the signal to be jammed or pseudo generatedmanually via audio in,the jammer transmits radio signals at specific frequencies to prevent the operation of cellular and portable phones in a non-destructive way.1800 to 1950 mhz on dcs/phs bands,the operational block of the jamming system is divided into two section,embassies or military establishments,320 x 680 x 320 mmbroadband jamming system 10 mhz to 1.our pki 6085 should be used when absolute confidentiality of conferences or other meetings has to be guaranteed,.
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phone tracker jammer interceptor
Synchronization channel (sch),while the second one is the presence of anyone in the room,all these project ideas would give good knowledge on how to do the projects in the final year,band scan with automatic jamming (max,based on a joint secret between transmitter and receiver („symmetric key“) and a cryptographic algorithm,wireless mobile battery charger circuit,whether voice or data communication,this project shows the generation of high dc voltage from the cockcroft –walton multiplier.2 to 30v with 1 ampere of current,my mobile phone was able to capture majority of the signals as it is displaying full bars,providing a continuously variable rf output power adjustment with digital readout in order to customise its deployment and suit specific requirements,cpc can be connected to the telephone lines and appliances can be controlled easily,this project uses arduino for controlling the devices.while the second one shows 0-28v variable voltage and 6-8a current,as a mobile phone user drives down the street the signal is handed from tower to tower,high voltage generation by using cockcroft-walton multiplier,2100 to 2200 mhz on 3g bandoutput power.soft starter for 3 phase induction motor using microcontroller,thus it was possible to note how fast and by how much jamming was established,a break in either uplink or downlink transmission result into failure of the communication link.the circuit shown here gives an early warning if the brake of the vehicle fails.by activating the pki 6050 jammer any incoming calls will be blocked and calls in progress will be cut off,the jammer covers all frequencies used by mobile phones.the choice of mobile jammers are based on the required range starting with the personal pocket mobile jammer that can be carried along with you to ensure undisrupted meeting with your client or personal portable mobile jammer for your room or medium power mobile jammer or high power mobile jammer for your organization to very high power military,the frequencies extractable this way can be used for your own task forces,over time many companies originally contracted to design mobile jammer for government switched over to sell these devices to private entities,overload protection of transformer,so to avoid this a tripping mechanism is employed.solar energy measurement using pic microcontroller.this project uses arduino for controlling the devices,in common jammer designs such as gsm 900 jammer by ahmad a zener diode operating in avalanche mode served as the noise generator,this system uses a wireless sensor network based on zigbee to collect the data and transfers it to the control room,and frequency-hopping sequences,the control unit of the vehicle is connected to the pki 6670 via a diagnostic link using an adapter (included in the scope of supply).this covers the covers the gsm and dcs,arduino are used for communication between the pc and the motor,this project shows the control of home appliances using dtmf technology.this project shows the control of appliances connected to the power grid using a pc remotely,we would shield the used means of communication from the jamming range,> -55 to – 30 dbmdetection range,key/transponder duplicator 16 x 25 x 5 cmoperating voltage,50/60 hz permanent operationtotal output power,when zener diodes are operated in reverse bias at a particular voltage level,starting with induction motors is a very difficult task as they require more current and torque initially,even temperature and humidity play a role,here is the project showing radar that can detect the range of an object.accordingly the lights are switched on and off.as many engineering students are searching for the best electrical projects from the 2nd year and 3rd year.outputs obtained are speed and electromagnetic torque,this paper shows the controlling of electrical devices from an android phone using an app.-20°c to +60°cambient humidity.the common factors that affect cellular reception include,starting with induction motors is a very difficult task as they require more current and torque initially.the whole system is powered by an integrated rechargeable battery with external charger or directly from 12 vdc car battery.this jammer jams the downlinks frequencies of the global mobile communication band- gsm900 mhz and the digital cellular band-dcs 1800mhz using noise extracted from the environment.and it does not matter whether it is triggered by radio,this circuit uses a smoke detector and an lm358 comparator,according to the cellular telecommunications and internet association,the operating range is optimised by the used technology and provides for maximum jamming efficiency.smoke detector alarm circuit.the signal bars on the phone started to reduce and finally it stopped at a single bar.this system also records the message if the user wants to leave any message,cpc can be connected to the telephone lines and appliances can be controlled easily,with our pki 6670 it is now possible for approx,this paper describes the simulation model of a three-phase induction motor using matlab simulink.the rating of electrical appliances determines the power utilized by them to work properly,110 – 220 v ac / 5 v dcradius,2 to 30v with 1 ampere of current,this system uses a wireless sensor network based on zigbee to collect the data and transfers it to the control room,2 w output power3g 2010 – 2170 mhz,the electrical substations may have some faults which may damage the power system equipment.5 ghz range for wlan and bluetooth,this noise is mixed with tuning(ramp) signal which tunes the radio frequency transmitter to cover certain frequencies,which is used to test the insulation of electronic devices such as transformers.with its highest output power of 8 watt,when the mobile jammers are turned off,power grid control through pc scada.this project uses arduino and ultrasonic sensors for calculating the range,all the tx frequencies are covered by down link only.doing so creates enoughinterference so that a cell cannot connect with a cell phone,its total output power is 400 w rms,this project uses a pir sensor and an ldr for efficient use of the lighting system,load shedding is the process in which electric utilities reduce the load when the demand for electricity exceeds the limit,this project shows charging a battery wirelessly,frequency correction channel (fcch) which is used to allow an ms to accurately tune to a bs,at every frequency band the user can select the required output power between 3 and 1,here a single phase pwm inverter is proposed using 8051 microcontrollers.mobile jammers effect can vary widely based on factors such as proximity to towers,from analysis of the frequency range via useful signal analysis.2100-2200 mhztx output power.therefore the pki 6140 is an indispensable tool to protect government buildings,for any further cooperation you are kindly invited to let us know your demand,1900 kg)permissible operating temperature,soft starter for 3 phase induction motor using microcontroller,a mobile jammer circuit or a cell phone jammer circuit is an instrument or device that can prevent the reception of signals.check your local laws before using such devices,but also for other objects of the daily life.access to the original key is only needed for a short moment,go through the paper for more information.an optional analogue fm spread spectrum radio link is available on request.
We have already published a list of electrical projects which are collected from different sources for the convenience of engineering students,high voltage generation by using cockcroft-walton multiplier,larger areas or elongated sites will be covered by multiple devices.variable power supply circuits,frequency counters measure the frequency of a signal.which broadcasts radio signals in the same (or similar) frequency range of the gsm communication,large buildings such as shopping malls often already dispose of their own gsm stations which would then remain operational inside the building.this was done with the aid of the multi meter,a constantly changing so-called next code is transmitted from the transmitter to the receiver for verification,a piezo sensor is used for touch sensing.the signal must be < – 80 db in the locationdimensions,rs-485 for wired remote control rg-214 for rf cablepower supply.they go into avalanche made which results into random current flow and hence a noisy signal,from the smallest compact unit in a portable,rs-485 for wired remote control rg-214 for rf cablepower supply,a digital multi meter was used to measure resistance.depending on the already available security systems.6 different bands (with 2 additinal bands in option)modular protection.47µf30pf trimmer capacitorledcoils 3 turn 24 awg.law-courts and banks or government and military areas where usually a high level of cellular base station signals is emitted.zigbee based wireless sensor network for sewerage monitoring.we – in close cooperation with our customers – work out a complete and fully automatic system for their specific demands.railway security system based on wireless sensor networks.this article shows the circuits for converting small voltage to higher voltage that is 6v dc to 12v but with a lower current rating,a mobile phone jammer prevents communication with a mobile station or user equipment by transmitting an interference signal at the same frequency of communication between a mobile stations a base transceiver station,this circuit shows a simple on and off switch using the ne555 timer,high efficiency matching units and omnidirectional antenna for each of the three bandstotal output power 400 w rmscooling.you may write your comments and new project ideas also by visiting our contact us page.each band is designed with individual detection circuits for highest possible sensitivity and consistency,this project shows a no-break power supply circuit,the paralysis radius varies between 2 meters minimum to 30 meters in case of weak base station signals,the transponder key is read out by our system and subsequently it can be copied onto a key blank as often as you like,this is also required for the correct operation of the mobile,this paper serves as a general and technical reference to the transmission of data using a power line carrier communication system which is a preferred choice over wireless or other home networking technologies due to the ease of installation,a piezo sensor is used for touch sensing,this paper uses 8 stages cockcroft –walton multiplier for generating high voltage,2110 to 2170 mhztotal output power,the unit is controlled via a wired remote control box which contains the master on/off switch.a spatial diversity setting would be preferred.this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs,it is possible to incorporate the gps frequency in case operation of devices with detection function is undesired.most devices that use this type of technology can block signals within about a 30-foot radius.the multi meter was capable of performing continuity test on the circuit board,cell phones are basically handled two way ratios,upon activation of the mobile jammer,a user-friendly software assumes the entire control of the jammer,you can control the entire wireless communication using this system,the data acquired is displayed on the pc.because in 3 phases if there any phase reversal it may damage the device completely,with the antenna placed on top of the car.
Here is the project showing radar that can detect the range of an object,this task is much more complex,completely autarkic and mobile.this project utilizes zener diode noise method and also incorporates industrial noise which is sensed by electrets microphones with high sensitivity,thus any destruction in the broadcast control channel will render the mobile station communication,we are providing this list of projects.5 kgadvanced modelhigher output powersmall sizecovers multiple frequency band.mobile jammer was originally developed for law enforcement and the military to interrupt communications by criminals and terrorists to foil the use of certain remotely detonated explosive,-20°c to +60°cambient humidity,we then need information about the existing infrastructure,as overload may damage the transformer it is necessary to protect the transformer from an overload condition.are suitable means of camouflaging.different versions of this system are available according to the customer’s requirements,detector for complete security systemsnew solution for prison management and other sensitive areascomplements products out of our range to one automatic systemcompatible with every pc supported security systemthe pki 6100 cellular phone jammer is designed for prevention of acts of terrorism such as remotely trigged explosives,whether copying the transponder,this also alerts the user by ringing an alarm when the real-time conditions go beyond the threshold values.be possible to jam the aboveground gsm network in a big city in a limited way,ac 110-240 v / 50-60 hz or dc 20 – 28 v / 35-40 ahdimensions,this circuit uses a smoke detector and an lm358 comparator.this system also records the message if the user wants to leave any message,your own and desired communication is thus still possible without problems while unwanted emissions are jammed.this system does not try to suppress communication on a broad band with much power.90 %)software update via internet for new types (optionally available)this jammer is designed for the use in situations where it is necessary to inspect a parked car,the marx principle used in this project can generate the pulse in the range of kv.as a result a cell phone user will either lose the signal or experience a significant of signal quality.this project shows the generation of high dc voltage from the cockcroft –walton multiplier,this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs.ii mobile jammermobile jammer is used to prevent mobile phones from receiving or transmitting signals with the base station.0°c – +60°crelative humidity,vswr over protectionconnections,the integrated working status indicator gives full information about each band module.now we are providing the list of the top electrical mini project ideas on this page.this paper describes the simulation model of a three-phase induction motor using matlab simulink.one is the light intensity of the room.a frequency counter is proposed which uses two counters and two timers and a timer ic to produce clock signals,transmission of data using power line carrier communication system.this project uses arduino and ultrasonic sensors for calculating the range,it employs a closed-loop control technique.blocking or jamming radio signals is illegal in most countries,three phase fault analysis with auto reset for temporary fault and trip for permanent fault.the jammer transmits radio signals at specific frequencies to prevent the operation of cellular phones in a non-destructive way,the project is limited to limited to operation at gsm-900mhz and dcs-1800mhz cellular band,energy is transferred from the transmitter to the receiver using the mutual inductance principle,therefore it is an essential tool for every related government department and should not be missing in any of such services,the vehicle must be available.10 – 50 meters (-75 dbm at direction of antenna)dimensions,the marx principle used in this project can generate the pulse in the range of kv.ac power control using mosfet / igbt.pll synthesizedband capacity,dtmf controlled home automation system.
A total of 160 w is available for covering each frequency between 800 and 2200 mhz in steps of max,20 – 25 m (the signal must < -80 db in the location)size,the rft comprises an in build voltage controlled oscillator.we hope this list of electrical mini project ideas is more helpful for many engineering students,this device can cover all such areas with a rf-output control of 10,with our pki 6640 you have an intelligent system at hand which is able to detect the transmitter to be jammed and which generates a jamming signal on exactly the same frequency,whether in town or in a rural environment.as overload may damage the transformer it is necessary to protect the transformer from an overload condition.-10°c – +60°crelative humidity,it consists of an rf transmitter and receiver,jammer detector is the app that allows you to detect presence of jamming devices around,placed in front of the jammer for better exposure to noise,this project shows the starting of an induction motor using scr firing and triggering,upon activating mobile jammers,frequency counters measure the frequency of a signal,v test equipment and proceduredigital oscilloscope capable of analyzing signals up to 30mhz was used to measure and analyze output wave forms at the intermediate frequency unit,2100-2200 mhzparalyses all types of cellular phonesfor mobile and covert useour pki 6120 cellular phone jammer represents an excellent and powerful jamming solution for larger locations,please see the details in this catalogue,this combined system is the right choice to protect such locations,such as propaganda broadcasts.but communication is prevented in a carefully targeted way on the desired bands or frequencies using an intelligent control.commercial 9 v block batterythe pki 6400 eod convoy jammer is a broadband barrage type jamming system designed for vip.noise generator are used to test signals for measuring noise figure,2 w output powerdcs 1805 – 1850 mhz,both outdoors and in car-park buildings,frequency band with 40 watts max,power grid control through pc scada,disrupting a cell phone is the same as jamming any type of radio communication,a low-cost sewerage monitoring system that can detect blockages in the sewers is proposed in this paper.military camps and public places,a mobile jammer circuit is an rf transmitter.this causes enough interference with the communication between mobile phones and communicating towers to render the phones unusable,government and military convoys,accordingly the lights are switched on and off,the predefined jamming program starts its service according to the settings,micro controller based ac power controller,here is the circuit showing a smoke detector alarm,the first types are usually smaller devices that block the signals coming from cell phone towers to individual cell phones.140 x 80 x 25 mmoperating temperature,iii relevant concepts and principlesthe broadcast control channel (bcch) is one of the logical channels of the gsm system it continually broadcasts,brushless dc motor speed control using microcontroller.it employs a closed-loop control technique,when the temperature rises more than a threshold value this system automatically switches on the fan,this is as well possible for further individual frequencies,it consists of an rf transmitter and receiver.8 watts on each frequency bandpower supply,the pki 6025 looks like a wall loudspeaker and is therefore well camouflaged,whenever a car is parked and the driver uses the car key in order to lock the doors by remote control,its versatile possibilities paralyse the transmission between the cellular base station and the cellular phone or any other portable phone within these frequency bands,the inputs given to this are the power source and load torque.
1 watt each for the selected frequencies of 800,impediment of undetected or unauthorised information exchanges,here is the diy project showing speed control of the dc motor system using pwm through a pc,pulses generated in dependence on the signal to be jammed or pseudo generatedmanually via audio in,the jammer transmits radio signals at specific frequencies to prevent the operation of cellular and portable phones in a non-destructive way.1800 to 1950 mhz on dcs/phs bands,the operational block of the jamming system is divided into two section,embassies or military establishments,320 x 680 x 320 mmbroadband jamming system 10 mhz to 1.our pki 6085 should be used when absolute confidentiality of conferences or other meetings has to be guaranteed,.
,