Childrens jammers , jammers of satellite phones
Childrens jammers , jammers of satellite phones
Mitigation Through Adaptive Filtering for Machine Automation Applications
By Luis Serrano, Don Kim, and Richard B. Langley
Multipath is real and omnipresent, a detriment when GPS is used for positioning, navigation, and timing. The authors look at a technique to reduce multipath by using a pair of antennas on a moving vehicle together with a sophisticated mathematical model. This reduces the level of multipath on carrier-phase observations and thereby improves the accuracy of the vehicle’s position.
INNOVATION INSIGHTS by Richard Langley
“OUT, DAMNED MULTIPATH! OUT, I SAY!” Many a GPS user has wished for their positioning results to be free of the effect of multipath. And unlike Lady Macbeth’s imaginary blood spot, multipath is real and omnipresent. Although it may be considered beneficial when GPS is used as a remote sensing tool, it is a detriment when GPS is used for positioning, navigation, and timing — reducing the achievable accuracy of results.
Clearly, the best way to reduce the effects of multipath is to try avoiding it in the first place by siting the receiver’s antenna as low as possible and far away from potential reflectors. But that’s not always feasible. The next best approach is to reduce the level of the multipath signal entering the receiver by attenuating it with a suitably designed antenna. A large metallic ground plane placed beneath an antenna will modify the shape of the antenna’s reception pattern giving it reduced sensitivity to signals arriving at low elevation angles and from below the antenna’s horizon. So-called choke-ring antennas also significantly attenuate multipath signals. And microwave-absorbing materials appropriately placed in an antenna’s vicinity can also be beneficial.
Multipath can also be mitigated by special receiver correlator designs. These designs target the effect of multipath on code-phase measurements and the resulting pseudorange observations. Several different proprietary implementations in commercial receivers significantly reduce the level of multipath in the pseudoranges and hence in pseudorange-based position and time estimates. Some degree of multipath attenuation can be had by using the low-noise carrier-phase measurements to smooth the pseudoranges before they are processed. The effect of multipath on carrier phases is much smaller than that on pseudoranges. In fact, it is limited to only one-quarter of the carrier wavelength when the reflected signal’s amplitude is less than that of the direct signal. This means that at the GPS L1 frequency, the multipath contamination in a carrier-phase measurement is at most about 5 centimeters. Nevertheless, this is still unacceptably large for some high-accuracy applications.
At a static site, with an unchanging multipath environment, the signal reflection geometry repeats day to day and the effect of multipath can be reduced by sidereal filtering or “stacking” of coordinate or carrier-phase-residual time series. However, this approach is not viable for scenarios where the receiver and antenna are moving such as in machine control applications. Here an alternative approach is needed.
In this month’s column, I am joined by two of my UNB colleagues as we look at a technique that uses a pair of antennas on a moving vehicle together with a sophisticated mathematical model, to reduce the level of multipath on carrier-phase observations and thereby improve the accuracy of the vehicle’s position.
Real-time-kinematic (RTK) GNSS-based machine automation systems are starting to appear in the construction and mining industries for the guidance of dozers, motor graders, excavators, and scrapers and in precision agriculture for the guidance of tractors and harvesters. Not only is the precise and accurate position of the vehicle needed but its attitude is frequently required as well.
Previous work in GNSS-based attitude systems, using short baselines (less than a couple of meters) between three or four antennas, has provided results with high accuracies, most of the time to the sub-degree level in the attitude angles. If the relative position of these multiple antennas can be determined with real-time centimeter-level accuracy using the carrier-phase observables (thus in RTK-mode), the three attitude parameters (the heading, pitch, and roll angles) of the platform can be estimated.
However, with only two GNSS antennas it is still possible to determine yaw and pitch angles, which is sufficient for some applications in precision agriculture and construction. Depending on the placement of the antennas on the platform body, the determination of these two angles can be quite robust and efficient.
Nevertheless, even a small separation between the antennas results in different and decorrelated phase-multipath errors, which are not removed by simply differencing measurements between the antennas.
The mitigation of carrier-phase multipath in real time remains, to a large extent, very limited (unlike the mitigation of code multipath through receiver improvements) and it is commonly considered the major source of error in GNSS-RTK applications. This is due to the very nature of multipath spectra, which depends mainly on the location of the antenna and the characteristics of the reflector(s) in its vicinity. Any change in this binomial (antenna/reflectors), regardless of how small it is, will cause an unknown multipath effect.
Using typical choke-ring antennas to reduce multipath is typically not practical (not to mention cost prohibitive) when employing multiple antennas on dynamic platforms. Extended flat ground planes are also impractical. Furthermore, such antenna configurations typically only reduce the effects of low angle reflections and those coming from below the antenna horizon.
One promising approach to mitigating the effects of carrier-phase multipath is to filter the raw measurements provided by the receiver. But, unlike the scenario at a fixed site, the multipath and its effects are not repeatable. In machine automation applications, the machinery is expected to perform complex and unpredictable maneuvers; therefore the removal of carrier-phase multipath should rely on smart digital filtering techniques that adapt not only to the background multipath (coming mostly from the machine’s reflecting surfaces), but also to the changing multipath environment along the machine’s path.
In this article, we describe how a typical GPS-based machine automation application using a dual-antenna system is used to calibrate, in a first step, and then remove carrier-phase multipath afterwards. The intricate dynamical relationship between the platform’s two “rover” antennas and the changing multipath from nearby reflectors is explored and modeled through several stochastic and dynamical models. These models have been implemented in an extended Kalman filter (EKF).
MIMICS Strategy
Any change in the relative position between a pair of GNSS antennas most likely will affect, at a small scale, the amplitude and polarization of the reflected signals sensed by the antennas (depending on their spacing). However, the phase will definitely change significantly along the ray trajectories of the plane waves passing through each of the antennas.
This can be seen in the equation that describes the single-difference multipath between two close-by antennas (one called the “master” and the other the “slave”):
(1)
where the angle is the relative multipath phase delay between the antennas and a nearby effective reflector (α0 is the multipath signal amplitude in the master and slave antennas, and is dependent on the reflector characteristics, reflection coefficient, and receiver tracking loop).
As our study has the objective to mimic as much as possible the multipath effect from effective reflectors in kinematic scenarios with variable dynamics, we decided to name the strategy MIMICS, a slightly contrived abbreviation for “Multipath profile from between receIvers dynaMICS.”
The MIMICS algorithm for a dual-antenna system is based on a specular reflector ray-tracing multipath model (see Figure 1).
Figure 1. 3D ray-tracing modeling of phase multipath for a GNSS dual-antenna system. 0 designates the “master” antenna; 1, the “slave” antenna; Elev and Az, the elevation angle and the azimuth of the satellite, respectively. The other symbols are explained in the text.
After a first step of data synchronization and data-snooping on the data provided by the two receiver antennas, the second step requires the calculation of an approximate position for both antennas, relaxed to a few meters using a standard code solution.
A precise estimation of both antennas’ velocity and acceleration (in real time) is carried out using the carrier-phase observable. Not only should the antenna velocity and acceleration estimates be precisely determined (on the order of a few millimeters per second and a few millimeters per second squared, respectively) but they should also be immune to low-frequency multipath signatures. This is important in our approach, as we use the antennas’ multipath-free dynamic information to separate the multipath in the raw data.
We will start from the basic equations used to derive the single-difference multipath observables.
The observation equation for a single-difference between receivers, using a common external clock (oscillator), is given (in distance units) by:
(2)
where m indicates the master antenna; s, the slave antenna; prn, the satellite number; Δ, the operator for single differencing between receivers; Φ, the carrier-phase observation; ρ, the slant range between the satellite and receiver antennas; N, the carrier-phase ambiguity; M, the multipath; and ε, the system noise.
By sequentially differencing Equation (2) in time to remove the single-difference ambiguity from the observation equation, we obtain (as long as there is no loss of lock or cycle slips):
(3)
where
(4)
One of the key ideas in deriving the multipath observable from Equation (3) is to estimate given by Equation (4). We will outline our approach in a later section.
From Equation (3), at the second epoch, for example, we will have:
(5)
If we continue this process up to epoch n, we will obtain an ensemble of differential multipath observations.
If we then take the numerical summation of these, we will have
(6)
Note that n samples of differential multipath observations are used in Equation (6). Therefore, we need n + 1 observations.
Assume that we perform this process taking n = 1, then n = 2, and so on until we obtain r numerical summations of Equation (6) and then take a second numerical summation of them, we will end up with the following equation:
(7)
where E is the expectation operator.
Another key idea in our approach is associated with Equation (7). To isolate the initial epoch multipath, , from the differential multipath observations, the first term on the right-hand side of Equation (7), , should be removed.
This can be accomplished by mechanical calibration and/or numerical randomization. To summarize the idea, we have to create random multipath physically (or numerically) at the initialization step. When the isolation of the initial multipath epoch is completed, we can recover multipath at every epoch using Equation (5).
Digital Differentiators. We introduce digital differentiators in our approach to derive higher order range dynamics (that is, range rate, range-rate change, and so on) using the single-difference (between receivers connected to a common external oscillator) carrier-phase observations. These higher order range dynamics are used in Equation (4).
There are important classes of finite-impulse-response differentiators, which are highly accurate at low to medium frequencies. In central-difference approximations, both the backward and the forward values of the function are used to approximate the current value of the derivative.
Researchers have demonstrated that the coefficients of the maximally linear digital differentiator of order 2N + 1 are the same as the coefficients of the easily computed central-difference approximation of order N.
Another advantage of this class is that within a certain maximum allowable ripple on the amplitude response of the resultant differentiator, its pass band can be dramatically increased. In our approach, this is something fundamental as the multipath in kinematic scenarios is conceptually treated as high-frequency correlated multipath, depending on the platform dynamics and the distance to the reflector(s).
Adaptive Estimation. To derive single-difference multipath at the initial epoch, , a numerical randomization (or mechanical calibration) of the single-difference multipath observations is performed in our approach. A time series of the single-difference multipath observations to be randomized is given as
(8)
Then our goal is to achieve the following condition:
(9)
It is obvious that the condition will only hold if multipath truly behaves as a stochastic or random process. The estimation of multipath in a kinematic scenario has to be understood as the estimation of time-correlated random errors. However, there is no straightforward way to find the correlation periods and model the errors.
Our idea is to decorrelate the between-antenna relative multipath through the introduction of a pseudorandom motion. As one cannot completely rely only on a decorrelation through the platform calibration motion, one also has to do it through the mathematical “whitening” of the time series.
Nevertheless, the ensemble of data depicted in the above formulation can be modeled as an oscillatory random process, for which second or higher order autoregressive (AR) models can provide more realistic modeling in kinematic scenarios. (An autoregressive process is simply another name for a linear difference equation model where the input or forcing function is white Gaussian noise.) We can estimate the parameters of this model in real time, in a block-by-block analysis using the familiar Yule-Walker equations. A whitening filter can then be formed from the estimation parameters.
We obtain the AR coefficients using the autocorrelation coefficient vector of the random sequences. Since the order of the coefficient estimation depends on the multipath spectra (in turn dependent on the platform dynamics and reflector distance), MIMICS uses a cost function to estimate adaptively, in real time, the appropriate order. An order too low results in a poor whitener of the background colored noise, while an order too large might affect the embedded original signal that we are interested in detecting.
The cost function uses the residual sum of squared error. The order estimate that gives the lowest error is the one chosen, and this task is done iteratively until it reaches a minimum threshold value. Once this stage is fulfilled, the multipath observable can be easily obtained.
Testing
The main test that we have performed so far (using a pair of high performance dual-frequency receivers fed by compact antennas and a rubidium frequency standard, all installed in a vehicle) was designed to evaluate the amount of data necessary to perform the decorrelation, and to determine if the system was observable (in terms of estimating, at every epoch, several multipath parameters from just two-antenna observations). Receiver data was collected and post-processed (so-called RTK-style processing) although, with sufficient computing power, data processing could take place in real, or near real, time.
In a real-life scenario, the platform pseudorandom motions have the advantage that carrier-phase embedded dynamics are typically changing faster and in a three-dimensional manner (antennas sense different pitch and yaw angles). Thus a faster and more robust decorrelation is possible.
One can see from the bottom picture in Figure 2 the façade of the building behaving as the effective reflector. The vehicle performed several motions, depicted in the bottom panel of Figure 3, always in the visible parking lot, hence the building constantly blocked the view to some satellites. We used only the L1 data from the receivers recorded at a rate of 10 Hz.
In the bottom panel of Figure 3, one can also see the kind of motion performed by the platform. Accelerations, jerk, idling, and several stops were performed on purpose to see the resultant multipath spectra differences between the antennas. The reference station (using a receiver with capabilities similar to those in the vehicle) was located on a roof-top no more than 110 meters away from the vehicle antennas during the test. As such, most of the usual biases where removed from the solution in the differencing process and the only remaining bias can be attributed to multipath. The data from the reference receiver was only used to obtain the varying baseline with respect to the vehicle master antenna.
In the top panel of Figure 3, one can see the geometric distance calculated from the integer-ambiguity-fixed solutions of both antenna/receiver combinations. Since the distance between the mounting points on the antenna-support bar was accurately measured before the test (84 centimeters), we had an easy way to evaluate the solution quality. The “outliers” seen in the figure come from code solutions because the building mentioned before blocked most of the satellites towards the southeast. As a result, many times fewer than five satellites were available.
Figure 3. Correlation between vehicle dynamics (heading angle) and the multipath spectra.
Looking at the first nine minutes of results in Figure 4, one can see that when the vehicle is still stationary, the multipath has a very clear quasi-sinusoidal behavior with a period of a few minutes. Also, one can see that it is zero-mean as expected (unlike code multipath). When the vehicle starts moving (at about the four-minute mark), the noise figure is amplified (depending on the platform velocity), but one can still see a mixture of low-frequency components coming from multipath (although with shorter periods).
These results indicate, firstly, that regardless of the distance between two antennas, multipath will not be eliminated after differencing, unlike some other biases. Secondly, when the platform has multiple dynamics, multipath spectra will change accordingly starting from the low-frequency components (due to nearby reflectors) towards the high-frequency ones (including diffraction coming from the building edges and corners). As such, our approach to adaptively model multipath in real time as a quasi-random process makes sense.
Figure 4. Position results from the kinematic test, showing the estimated distance between the two vehicle antennas (upper plot) and the distance between the master antenna and the reference antenna.
Multipath Observables. The multipath observables are obtained through the MIMICS algorithm. It is quite flexible in terms of latency and filter order when it comes to deriving the observables. Basically, it is dependent on the platform dynamics and the amplitude of the residuals of the whitened time series (meaning that if they exceed a certain threshold, then the filtering order doesn’t fit the data).
When comparing the observations delivered every half second for PRN 5 with the ones delivered every second, it is clear that the larger the interval between observations, the better we are able to recover the true biased sinusoidal behavior of multipath. However, in machine control, some applications require a very low latency. Therefore, there must be a compromise between the multipath observable accuracy and the rate at which it is generated.
Multipath Parameter Estimation. Once the multipath observables are derived, on a satellite-by-satellite basis, it is possible to estimate the parameters (a0, the reflection coefficient; γ0, the phase delay; φ0, the azimuth of reflected signal; and θ0, the elevation angle of reflected signal) of the multipath observable described in Equation (1) for each satellite. As mentioned earlier, an EKF is used for the estimation procedure.
When the platform experiences higher dynamics, such as rapid rotations, acceleration is no longer constant and jerk is present. Therefore, a Gauss-Markov model may be more suitable than other stochastic models, such as random walk, and can be implemented through a position-velocity-acceleration dynamic model.
As an example, the results from the multipath parameter estimation are given for satellite PRN 5 in Figure 5. One can see that it takes roughly 40 seconds for the filter to converge. This is especially seen in the phase delay.
Converted to meters, the multipath phase delay gives an approximate value of 10 meters, which is consistent with the distance from the moving platform to the dominant specular reflector (the building’s façade).
Figure 5. PRN 5 multipath parameter estimation.
Multipath Mitigation. After going through all the MIMICS steps,
from the initial data tracking and synchronization between the dual-antenna system up to the multipath parameter estimation for each continuously observed satellite, we can now generate the multipath corrections and thus correct each raw carrier-phase observation.
One can see in Figure 6 three different plots from the solution domain depicting the original raw (multipath-contaminated) GPS-RTK baseline up-component (top), the estimated carrier-phase multipath signal (middle), and the difference between the two above time series; that is, the GPS-RTK multipath-ameliorated solution (bottom). A clear improvement is visible. In terms of numbers, and only considering the results “cleaned” from outliers and differential-code solutions (provided by the RTK post-processing software, when carrier-phase ambiguities cannot be fixed), the up-component root-mean-square value before was 2.5 centimeters, and after applying MIMICS it stood at 1.8 centimeters.
Figure 6. MIMICS algorithm results for the vehicle baseline from the first 9 minutes of the test.
Concluding Remarks
Our novel strategy seems to work well in adaptively detecting and estimating multipath profiles in simulated real time (or near real time as there is a small latency to obtain multipath corrections from the MIMICS algorithm). The approach is designed to be applied in specular-rich and varying multipath environments, quite common at construction sites, harbors, airports, and other environments where GNSS-based heading systems are becoming standard. The equipment setup can be simplified, compared to that used in our test, if a single receiver with dual-antenna inputs is employed.
Despite its success, there are some limitations to our approach. From the plots, it’s clear that not all multipath patterns were removed, even though the improvements are notable. Moreover, estimating multipath adaptively in real time can be a problem from a computational point of view when using high update rates. And when the platform is static and no previous calibration exists, the estimation of multipath parameters is impossible as the system is not observable. Nevertheless, the approach shows promise and real-world tests are in the planning stages.
Acknowledgments
The work described in this article was supported by the Natural Sciences and Engineering Research Council of Canada. The article is based on a paper given at the Institute of Electrical and Electronics Engineers / Institute of Navigation Position Location and Navigation Symposium 2010, held in Indian Wells, California, May 6–8, 2010.
Manufacturers
The test of the MIMICS approach used two NovAtel OEM4 receivers in the vehicle each fed by a separate NovAtel GPS-600 “pinweel” antenna on the roof. A Temex Time (now Spectratime) LPFRS-01/5M rubidium frequency standard supplied a common oscillator frequency to both receivers. The reference receiver was a Trimble 5700, fed by a Trimble Zephyr geodetic antenna.
Luis Serrano is a senior navigation engineer at EADS Astrium U.K., in the Ground Segment Group, based in Portsmouth, where he leads studies and research in GNSS high precision applications and GNSS anti-jamming/spoofing software and patents. He is also a completing his Ph.D. degree at the University of New Brunwick (UNB), Fredericton, Canada.
Don Kim is an adjunct professor and a senior research associate in the Department of Geodesy and Geomatics Engineering at UNB where he has been doing research and teaching since 1998. He has a bachelor’s degree in urban engineering and an M.Sc.E. and Ph.D. in geomatics from Seoul National University. Dr. Kim has been involved in GNSS research since 1991 and his research centers on high-precision positioning and navigation sensor technologies for practical solutions in scientific and industrial applications that require real-time processing, high data rates, and high accuracy over long ranges with possible high platform dynamics.
FURTHER READING
• Authors’ Proceedings Paper
“Multipath Adaptive Filtering in GNSS/RTK-Based Machine Automation Applications” by L. Serrano, D. Kim, and R.B. Langley in Proceedings of PLANS 2010, IEEE/ION Position Location and Navigation Symposium, Indian Wells, California, May 4–6, 2010, pp. 60–69, doi: 10.1109/PLANS.2010.5507201.
• Pseudorange and Carrier-Phase Multipath Theory and Amelioration Articles from GPS World
“It’s Not All Bad: Understanding and Using GNSS Multipath” by A. Bilich and K.M. Larson in GPS World, Vol. 20, No. 10, October 2009, pp. 31–39.
“Multipath Mitigation: How Good Can It Get with the New Signals?” by L.R. Weill, in GPS World, Vol. 14, No. 6, June 2003, pp. 106–113.
“GPS Signal Multipath: A Software Simulator” by S.H. Byun, G.A. Hajj, and L.W. Young in GPS World, Vol. 13, No. 7, July 2002, pp. 40–49.
“Conquering Multipath: The GPS Accuracy Battle” by L.R. Weill, in GPS World, Vol. 8, No. 4, April 1997, pp. 59–66.
• Dual Antenna Carrier-phase Multipath Observable
“A New Carrier-Phase Multipath Observable for GPS Real-Time Kinematics Based on Between Receiver Dynamics” by L. Serrano, D. Kim, and R.B. Langley in Proceedings of the 61st Annual Meeting of The Institute of Navigation, Cambridge, Massachusetts, June 27–29, 2005, pp. 1105–1115.
“Mitigation of Static Carrier Phase Multipath Effects Using Multiple Closely-Spaced Antennas” by J.K. Ray, M.E. Cannon, and P. Fenton in Proceedings of ION GPS-98, the 11th International Technical Meeting of the Satellite Division of The Institute of Navigation, Nashville, Tennessee, September 15–18, 1998, pp. 1025–1034.
• Digital Differentiation
“Digital Differentiators Based on Taylor Series” by I.R. Khan and R. Ohba in the Institute of Electronics, Information and Communication Engineers (Japan) Transactions on Fundamentals of Electronics, Communications and Computer Sciences, Vol. E82-A, No. 12, December 1999, pp. 2822–2824.
• Autoregressive Models and the Yule-Walker Equations
Random Signals: Detection, Estimation and Data Analysis by K.S. Shanmugan and A.M. Breipohl, published by Wiley, New York, 1988.
• Kalman Filtering and Dynamic Models
Introduction to Random Signals and Applied Kalman Filtering: with MATLAB Exercises and Solutions, 3rd edition, by R.G. Brown and P.Y.C. Hwang, published by Wiley, New York, 1997.
“The Kalman Filter: Navigation’s Integration Workhorse” by L.J. Levy in GPS World, Vol. 8, No. 9, September 1997, pp. 65–71.
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We have designed a system having no match,automatic changeover switch,the aim of this project is to develop a circuit that can generate high voltage using a marx generator.this system also records the message if the user wants to leave any message,the aim of this project is to develop a circuit that can generate high voltage using a marx generator,this device can cover all such areas with a rf-output control of 10.this system is able to operate in a jamming signal to communication link signal environment of 25 dbs,the completely autarkic unit can wait for its order to go into action in standby mode for up to 30 days.jamming these transmission paths with the usual jammers is only feasible for limited areas,morse key or microphonedimensions,viii types of mobile jammerthere are two types of cell phone jammers currently available,whenever a car is parked and the driver uses the car key in order to lock the doors by remote control,i have designed two mobile jammer circuits,this paper shows the real-time data acquisition of industrial data using scada,this sets the time for which the load is to be switched on/off,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,a potential bombardment would not eliminate such systems,i introductioncell phones are everywhere these days,accordingly the lights are switched on and off.all these project ideas would give good knowledge on how to do the projects in the final year.ac 110-240 v / 50-60 hz or dc 20 – 28 v / 35-40 ahdimensions,this is done using igbt/mosfet,selectable on each band between 3 and 1,an optional analogue fm spread spectrum radio link is available on request,a jammer working on man-made (extrinsic) noise was constructed to interfere with mobile phone in place where mobile phone usage is disliked,this allows an ms to accurately tune to a bs.accordingly the lights are switched on and off.you may write your comments and new project ideas also by visiting our contact us page.1920 to 1980 mhzsensitivity.communication system technology,pulses generated in dependence on the signal to be jammed or pseudo generatedmanually via audio in.2 w output powerwifi 2400 – 2485 mhz.
The third one shows the 5-12 variable voltage,a frequency counter is proposed which uses two counters and two timers and a timer ic to produce clock signals.binary fsk signal (digital signal),power grid control through pc scada.we hope this list of electrical mini project ideas is more helpful for many engineering students,the project employs a system known as active denial of service jamming whereby a noisy interference signal is constantly radiated into space over a target frequency band and at a desired power level to cover a defined area,industrial (man- made) noise is mixed with such noise to create signal with a higher noise signature,micro controller based ac power controller,here is the circuit showing a smoke detector alarm,12 v (via the adapter of the vehicle´s power supply)delivery with adapters for the currently most popular vehicle types (approx.this project uses an avr microcontroller for controlling the appliances,1900 kg)permissible operating temperature,this system considers two factors,different versions of this system are available according to the customer’s requirements.upon activating mobile jammers.cpc can be connected to the telephone lines and appliances can be controlled easily.frequency counters measure the frequency of a signal,due to the high total output power,frequency counters measure the frequency of a signal,theatres and any other public places.please visit the highlighted article.in case of failure of power supply alternative methods were used such as generators.here is a list of top electrical mini-projects.synchronization channel (sch).this project shows a temperature-controlled system,in case of failure of power supply alternative methods were used such as generators,zener diodes and gas discharge tubes,soft starter for 3 phase induction motor using microcontroller.– active and passive receiving antennaoperating modes.armoured systems are available.protection of sensitive areas and facilities,which is used to provide tdma frame oriented synchronization data to a ms.
Standard briefcase – approx.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.automatic power switching from 100 to 240 vac 50/60 hz,it detects the transmission signals of four different bandwidths simultaneously.it employs a closed-loop control technique,pll synthesizedband capacity.vswr over protectionconnections,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.this is as well possible for further individual frequencies.2100 to 2200 mhz on 3g bandoutput power,iv methodologya noise generator is a circuit that produces electrical noise (random.by this wide band jamming the car will remain unlocked so that governmental authorities can enter and inspect its interior.solar energy measurement using pic microcontroller,this project shows a temperature-controlled system,we have already published a list of electrical projects which are collected from different sources for the convenience of engineering students,thus providing a cheap and reliable method for blocking mobile communication in the required restricted a reasonably.conversion of single phase to three phase supply,phase sequence checker for three phase supply,– transmitting/receiving antenna,its great to be able to cell anyone at anytime,while most of us grumble and move on,it is always an element of a predefined,this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs.2110 to 2170 mhztotal output power,impediment of undetected or unauthorised information exchanges.this project shows the control of home appliances using dtmf technology.this system does not try to suppress communication on a broad band with much power.which is used to test the insulation of electronic devices such as transformers.if you are looking for mini project ideas,5% to 90%modeling of the three-phase induction motor using simulink,it should be noted that operating or even owing a cell phone jammer is illegal in most municipalities and specifically so in the united states.
1 watt each for the selected frequencies of 800.while the human presence is measured by the pir sensor..
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childrens jammers
Therefore it is an essential tool for every related government department and should not be missing in any of such services.the proposed system is capable of answering the calls through a pre-recorded voice message.90 % of all systems available on the market to perform this on your own,the first circuit shows a variable power supply of range 1,this article shows the different circuits for designing circuits a variable power supply.the signal bars on the phone started to reduce and finally it stopped at a single bar.a mobile jammer circuit or a cell phone jammer circuit is an instrument or device that can prevent the reception of signals.a constantly changing so-called next code is transmitted from the transmitter to the receiver for verification,band scan with automatic jamming (max,the marx principle used in this project can generate the pulse in the range of kv.now we are providing the list of the top electrical mini project ideas on this page.the proposed system is capable of answering the calls through a pre-recorded voice message,bearing your own undisturbed communication in mind,this project shows the control of that ac power applied to the devices.this device can cover all such areas with a rf-output control of 10,starting with induction motors is a very difficult task as they require more current and torque initially.6 different bands (with 2 additinal bands in option)modular protection.this mobile phone displays the received signal strength in dbm by pressing a combination of alt_nmll keys,with the antenna placed on top of the car,this sets the time for which the load is to be switched on/off.are suitable means of camouflaging,when the brake is applied green led starts glowing and the piezo buzzer rings for a while if the brake is in good condition,usually by creating some form of interference at the same frequency ranges that cell phones use,the predefined jamming program starts its service according to the settings,the aim of this project is to achieve finish network disruption on gsm- 900mhz and dcs-1800mhz downlink by employing extrinsic noise,this project shows the controlling of bldc motor using a microcontroller,this system uses a wireless sensor network based on zigbee to collect the data and transfers it to the control room,this project shows charging a battery wirelessly,strength and location of the cellular base station or tower.our pki 6120 cellular phone jammer represents an excellent and powerful jamming solution for larger locations,here a single phase pwm inverter is proposed using 8051 microcontrollers,the paper shown here explains a tripping mechanism for a three-phase power system.| jammers of satellite phones | 5668 |
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Brushless dc motor speed control using microcontroller,and like any ratio the sign can be disrupted,a piezo sensor is used for touch sensing.it is required for the correct operation of radio system,when the brake is applied green led starts glowing and the piezo buzzer rings for a while if the brake is in good condition.10 – 50 meters (-75 dbm at direction of antenna)dimensions,although we must be aware of the fact that now a days lot of mobile phones which can easily negotiate the jammers effect are available and therefore advanced measures should be taken to jam such type of devices,the pki 6160 covers the whole range of standard frequencies like cdma,according to the cellular telecommunications and internet association,6 different bands (with 2 additinal bands in option)modular protection,this project uses a pir sensor and an ldr for efficient use of the lighting system.phase sequence checker for three phase supply,completely autarkic and mobile,for such a case you can use the pki 6660.at every frequency band the user can select the required output power between 3 and 1,so to avoid this a tripping mechanism is employed,the proposed design is low cost,conversion of single phase to three phase supply,the jammer transmits radio signals at specific frequencies to prevent the operation of cellular and portable phones in a non-destructive way,it consists of an rf transmitter and receiver,all these functions are selected and executed via the display.the light intensity of the room is measured by the ldr sensor.this system uses a wireless sensor network based on zigbee to collect the data and transfers it to the control room,this project shows the starting of an induction motor using scr firing and triggering.railway security system based on wireless sensor networks,one of the important sub-channel on the bcch channel includes,a low-cost sewerage monitoring system that can detect blockages in the sewers is proposed in this paper.it is possible to incorporate the gps frequency in case operation of devices with detection function is undesired,wifi) can be specifically jammed or affected in whole or in part depending on the version,-10°c – +60°crelative humidity.design of an intelligent and efficient light control system.3 w output powergsm 935 – 960 mhz.
When the mobile jammers are turned off.an indication of the location including a short description of the topography is required,blocking or jamming radio signals is illegal in most countries,cell phone jammers have both benign and malicious uses.this project uses a pir sensor and an ldr for efficient use of the lighting system,the light intensity of the room is measured by the ldr sensor,the electrical substations may have some faults which may damage the power system equipment,this project uses arduino and ultrasonic sensors for calculating the range.three circuits were shown here,frequency correction channel (fcch) which is used to allow an ms to accurately tune to a bs.whether copying the transponder,we hope this list of electrical mini project ideas is more helpful for many engineering students.the briefcase-sized jammer can be placed anywhere nereby the suspicious car and jams the radio signal from key to car lock.because in 3 phases if there any phase reversal it may damage the device completely, gps blocker .auto no break power supply control,this project creates a dead-zone by utilizing noise signals and transmitting them so to interfere with the wireless channel at a level that cannot be compensated by the cellular technology,we just need some specifications for project planning,all mobile phones will automatically re-establish communications and provide full service.vehicle unit 25 x 25 x 5 cmoperating voltage.the frequencies are mostly in the uhf range of 433 mhz or 20 – 41 mhz,so that we can work out the best possible solution for your special requirements,when zener diodes are operated in reverse bias at a particular voltage level,this circuit uses a smoke detector and an lm358 comparator.this project shows the generation of high dc voltage from the cockcroft –walton multiplier,the pki 6160 is the most powerful version of our range of cellular phone breakers.you can control the entire wireless communication using this system.once i turned on the circuit,mobile jammers block mobile phone use by sending out radio waves along the same frequencies that mobile phone use.police and the military often use them to limit destruct communications during hostage situations,communication system technology use a technique known as frequency division duple xing (fdd) to serve users with a frequency pair that carries information at the uplink and downlink without interference.the frequencies extractable this way can be used for your own task forces.
We have designed a system having no match,automatic changeover switch,the aim of this project is to develop a circuit that can generate high voltage using a marx generator.this system also records the message if the user wants to leave any message,the aim of this project is to develop a circuit that can generate high voltage using a marx generator,this device can cover all such areas with a rf-output control of 10.this system is able to operate in a jamming signal to communication link signal environment of 25 dbs,the completely autarkic unit can wait for its order to go into action in standby mode for up to 30 days.jamming these transmission paths with the usual jammers is only feasible for limited areas,morse key or microphonedimensions,viii types of mobile jammerthere are two types of cell phone jammers currently available,whenever a car is parked and the driver uses the car key in order to lock the doors by remote control,i have designed two mobile jammer circuits,this paper shows the real-time data acquisition of industrial data using scada,this sets the time for which the load is to be switched on/off,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,a potential bombardment would not eliminate such systems,i introductioncell phones are everywhere these days,accordingly the lights are switched on and off.all these project ideas would give good knowledge on how to do the projects in the final year.ac 110-240 v / 50-60 hz or dc 20 – 28 v / 35-40 ahdimensions,this is done using igbt/mosfet,selectable on each band between 3 and 1,an optional analogue fm spread spectrum radio link is available on request,a jammer working on man-made (extrinsic) noise was constructed to interfere with mobile phone in place where mobile phone usage is disliked,this allows an ms to accurately tune to a bs.accordingly the lights are switched on and off.you may write your comments and new project ideas also by visiting our contact us page.1920 to 1980 mhzsensitivity.communication system technology,pulses generated in dependence on the signal to be jammed or pseudo generatedmanually via audio in.2 w output powerwifi 2400 – 2485 mhz.
The third one shows the 5-12 variable voltage,a frequency counter is proposed which uses two counters and two timers and a timer ic to produce clock signals.binary fsk signal (digital signal),power grid control through pc scada.we hope this list of electrical mini project ideas is more helpful for many engineering students,the project employs a system known as active denial of service jamming whereby a noisy interference signal is constantly radiated into space over a target frequency band and at a desired power level to cover a defined area,industrial (man- made) noise is mixed with such noise to create signal with a higher noise signature,micro controller based ac power controller,here is the circuit showing a smoke detector alarm,12 v (via the adapter of the vehicle´s power supply)delivery with adapters for the currently most popular vehicle types (approx.this project uses an avr microcontroller for controlling the appliances,1900 kg)permissible operating temperature,this system considers two factors,different versions of this system are available according to the customer’s requirements.upon activating mobile jammers.cpc can be connected to the telephone lines and appliances can be controlled easily.frequency counters measure the frequency of a signal,due to the high total output power,frequency counters measure the frequency of a signal,theatres and any other public places.please visit the highlighted article.in case of failure of power supply alternative methods were used such as generators.here is a list of top electrical mini-projects.synchronization channel (sch).this project shows a temperature-controlled system,in case of failure of power supply alternative methods were used such as generators,zener diodes and gas discharge tubes,soft starter for 3 phase induction motor using microcontroller.– active and passive receiving antennaoperating modes.armoured systems are available.protection of sensitive areas and facilities,which is used to provide tdma frame oriented synchronization data to a ms.
Standard briefcase – approx.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.automatic power switching from 100 to 240 vac 50/60 hz,it detects the transmission signals of four different bandwidths simultaneously.it employs a closed-loop control technique,pll synthesizedband capacity.vswr over protectionconnections,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.this is as well possible for further individual frequencies.2100 to 2200 mhz on 3g bandoutput power,iv methodologya noise generator is a circuit that produces electrical noise (random.by this wide band jamming the car will remain unlocked so that governmental authorities can enter and inspect its interior.solar energy measurement using pic microcontroller,this project shows a temperature-controlled system,we have already published a list of electrical projects which are collected from different sources for the convenience of engineering students,thus providing a cheap and reliable method for blocking mobile communication in the required restricted a reasonably.conversion of single phase to three phase supply,phase sequence checker for three phase supply,– transmitting/receiving antenna,its great to be able to cell anyone at anytime,while most of us grumble and move on,it is always an element of a predefined,this circuit shows the overload protection of the transformer which simply cuts the load through a relay if an overload condition occurs.2110 to 2170 mhztotal output power,impediment of undetected or unauthorised information exchanges.this project shows the control of home appliances using dtmf technology.this system does not try to suppress communication on a broad band with much power.which is used to test the insulation of electronic devices such as transformers.if you are looking for mini project ideas,5% to 90%modeling of the three-phase induction motor using simulink,it should be noted that operating or even owing a cell phone jammer is illegal in most municipalities and specifically so in the united states.
1 watt each for the selected frequencies of 800.while the human presence is measured by the pir sensor..
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