Event photos by Melanie Beus The GPS World Leadership Awards were presented during a special ceremony and dinner during ION-GNSS+ 2017 in Portland in September. The awards recognize significant recent achievement in these fields of positioning, navigation and timing: satellites, signals, services and products. The Leadership Dinner was made possible by our generous sponsors: Harris Corporation, Rockwell Collins and Spirent Federal Systems. 2017 dinner program cover. (Image: GPS World) Opening remarks by Alan Cameron, editor and publisher of GPS World Everyone at this great conference is actively engaged in innovation: new approaches, new combinations, new integrations, new methodologies. Our sponsors are not only innovators, they are active in building those innovations in the field, installing the cornerstones of GPS and GNSS technology. Harris Corporation has been building the GPS satellite payloads since the beginning of time, Rockwell Collins has built so much user equipment, historically and currently, and Spirent Federal Systems has been enabling the development and testing of much user equipment by many companies in this room. Just to give you an idea of who else is seated among you at the tables, we have NovAtel, Spectracom, IFEN, Septentrio, Satelles, Syntony, Unicore, u-blox, ComNav, RaceLogic, Rohde & Schwarz, ublox, Locata, GMV, Leica, Thales, Boeing, Broadcom, Qualcomm, Google, Apple, Intel, MITRE and Aerospace Corporation; the U.S. Air Force GPS Directorate, the U.S. State Department, the European Space Agency, the European GNSS Agency and the European Commission, NASA, the French and German aerospace agencies; the Institute of Navigation and the Royal Institute of Navigation; and universities and research institutes almost too many to number. This is a great industry to be part of, and I feel lucky to be kind of a spectator, a commentator in it without the benefit of the scientific upbringing that everybody else in this room has had. I still get to participate in the excitement and the developments and for that I am truly grateful. Satellites Leadership Award Galileo Builder Wolfgang Paetsch Director of Navigation and Member of the Executive Board, OHB For his leadership in setting up the routine production of the Galileo satellites leading to Galileo constellation deployment, including thequadruple Ariane 5 launch in November 2016. Paul Verhoef (right), director of the Galileo Programme and Navigation-related Activities, European Space Agency, accepted the award and delivered remarks on behalf of Wolfgang Paetsch. (Right photo: Melanie Beus) Introduction by Rob Scott, Rockwell Collins “Forty years ago, Rockwell Collins celebrated the first receipt of a GPS signal, using a six-foot tall, two-person receiver. Now we have something something 1 by 1-1/4 inches that is far more capable. It’s amazing to see how technology has advanced.” Remarks by Wolfgang Paetsch I must admit I am rather at fault for Wolfgang not being here, because I keep him rather busy producing satellites, as OHB is completing the last of 22 satellites under contract from ESA. We are going to launch again in December, as you know we have had a few problems, which I’m glad to say we have solved. The issues are behind us, and the Swiss clocks are working fine now, which is great. On Dec. 12 we are going to launch. The first two satellites are in Kourou already, the next ones are going in two weeks [as of Sept. 28; all satellites are now in Kourou. — Ed.] We’re going to go up on an Ariane 5 again, with these four satellites. Next summer we are doing another four, so it brings the whole Galileo constellation from 18 to 26, and then we are fully operational. In this business it is quite a challenge to keep up the pace. I think OHB, with Wolfgang in the lead, has done very well in the past years to set up indeed a very impressive production line and keep all the machinery ticking over. It has been a big challenge for them, as they had been a relatively small player in the space business, while at the same time they have been able to win other competitions in the space business in other areas. OHB has been doing very well and we are glad of course that they are doing well because it was important to get Galileo up and running. OHB has managed to win recently another contract, good for them, we are about ready to give them the first options on that contract, so we will have a total of 14 satellites under contract with them, in addition to the 22 they are completing. These satellites will further complete the constellation and they will already start replacing the first IOV satellites which we have put up. So you see the cycle is rather quick. Of course we are waiting a bit to see what the real lifetime of the satellites is going to be. We don’t know that yet but we will find out in the next couple of years. Looking Ahead. So what are the challenges for us in the next years? We are currently working with colleagues from the European Commission and the European GNSS Agency on what the next constellations are going to do. Obviously there is a lot of pressure for further innovation, for further improvements. The user community over the last couple of years has become more outspoken about what they want and what they expect, which is nice. Obviously we need to take care of the legacy users, and we are having to see what new technology would allow us to do. At the end of the day there is then also a small thing called budget, which needs to have its play in these things. In any case, the plan is by the end of the year we will start the procurement of the next batch of satellites. This will take a while to do, this procurement, as it concerns new developments, but then we are going to go for the next constellation. So let me finish by paying a tribute to Wolfgang and his team. It has been a real challenge for them. I know that he was pretty amazed, and after that pretty proud, of this prize he has gotten, and I will carefully carry this back to him in Europe. Alan, thank you very much. Services Leadership Award Global Educator Patricia Doherty Director and Senior Scientist, Institute for Scientific Research, Boston College For initiating and leading the African GNSS Outreach program since 2009, to help developing countries derive social and economic benefits from satellite-based PNT. Frank van Diggelen (left, above), an African Outreach faculty member and principal software engineer, Google, introduced and conferred the award to Pat Doherty. (Photo: Melanie Beus) Introduction by Frank van Diggelen “I had the great honor and privilege of teaching in the African GNSS Outreach program. If you are approached to participate in this, seize the opportunity! It’s a fabulous thing, with people from all over Africa, and you’ll learn far more than you think.” Remarks by Patricia Doherty I would like to thank GPS World for this Leadership Services Award. I am sincerely honored and humbled by this recognition. Serving the GNSS community with the African Outreach Program has been a joy and a privilege that I am personally grateful for every day. This program began in 2009. The idea was conceived at a G8-UNESCO World Forum that I was fortunate to attend in 2007. At that forum, leaders from developing nations of Africa described the need for assistance in developing science and technology in their countries, technologies that would lead the way to socio-economic transformation and integration into the world economy. As all of us here know, GNSS is a space technology that can change the world with applications that can increase food security, monitor natural resources, manage wildlife conservation, improve emergency location services, and provide greater precision and safety in land, sea and air navigation — just to name a few of the possibilities. Thus the goal of the African Outreach Program was to encourage the use of GNSS for societal and economic development and for scientific exploration in Africa. The way to do that was to help build a knowledgeable African GNSS workforce. I am glad to report that the program has been quite successful. To date, we have hosted 9 workshops. In those workshops, we have introduced the art and science of GNSS navigation to over 450 professors and students from at least 23 of the 54 countries in Africa. Many of the African participants have gone on to do great things: hosting local workshops, developing GNSS programs in their universities, gaining government confidence and interest in GNSS technology and building infrastructure that enabled the use of GNSS. One of the prime reasons for this success are the sponsors who support us and the lecturers who generously share their time, their knowledge and their zeal for GNSS to teach at the workshops. Many of these lecturers are here tonight. So thank you all. Many of these lecturers have expressed that their lives were enriched by this program. Others have told me that they have never seen a more attentive audience and that just having the opportunity to meet and work with people from the developing world in Africa is a gratifying experience. Several of our lecturers, including myself, are now involved in collaborations with scientists in the developing world. More to come. Although this sounds like we have done our job, there is still so much to do. Change is slow in Africa. Our plans for the future include building on our success by hosting additional workshops where we will try to reach additional countries in Africa and strengthen current programs and infrastructure in countries where that has been slow to develop. We are also opening the program to other developing countries around the world, as there has been much interest from Central America, South America and Asia. Finally, we are working to bring more workshops to the African continent, where we can reach more students, have an effect on local universities and speak to the local government about the benefits of using GNSS as an enabling technology for societal betterment and economic growth. In closing, I am honored to receive this award and I look forward to continuing our work to support the use of GNSS in developing nations. Thank you, GPS World, and thank you to our sponsors, lecturers and our African participants for making this program a success. Signals Leadership Award Spectrum Advisor Chris Hegarty Director for Communications, Navigation and Surveillance Engineering and Spectrum, The MITRE Corporation For contributions to the U.S. Department of Transportation’s GPS Adjacent Band Compatibility Assessment. Chris Hegarty (Photo: Melanie Beus) Introduction by Joe Rolli, Harris Corporation “On behalf of the Harris Corporation and the team I work with in the Precision Navigation and Timing Business Area, providing the world with GPS signals from space for over forty years, I am pleased to present this year’s Leadership Signals Award.” Remarks by Chris Hegarty Thank you very much. I really appreciate this. The truth be told, of course, the Adjacent Band Compatibility (ABC) study has had many contributors. I’m honored to receive this award, but equally deserving are many others including Karen Van Dyke at DOT, Steve Mackey and Hadi Wassaf at DOT’s Volpe Center, Karl Shallberg at Zeta, and too many others to list at DOT, the Air Force, NASA, other federal partners and their contractors. Looking forward, for those of you who have not been following this issue, the GPS spectrum is being challenged. The spectrum is highly valued and of course there are companies that would like to use that spectrum. I think that it’s safe to say that no one would really want to stop them from using that spectrum if it didn’t have an impact on GPS, but the unfortunate reality is that it appears the deployment of a 4G network or other potential use of the bands adjacent to GPS with similar transmitter power levels would disrupt the operations of many hundreds of thousands of receivers. To ignore the issue would really be a mistake for our industry. This issue unfortunately isn’t going to go away. The pressure on spectrum is going to continue to grow — until someone figures out how to communicate without using electromagnetic waves. So this is going to be a persistent problem. I think we can build receivers, in the future, that can deal with some new systems in adjacent bands, but it’s going to be imperative for a long transition period to protect the investments made by many people in the room here and the folks that we support. That’s all I wanted to say, thank you again very much. Products Leadership Award Advanced Capability Developers Charles Abraham, Andreas Warloe and Javier de Salas Vice President of Engineering, Senior Director of Engineering, and Director of Software Engineering, respectively, Broadcom For developing the first dual-frequency L1/L5 E1/E5 GNSS chip for smartphones, ushering in a new era of high-precision GNSS in mass-market products. Charles Abraham and Andreas Warloe, with Javier de Salas (not shown); Ellen Hall (left), CEO of Spirent Federal Systems, introduced and conferred the award. (Photo: Melanie Beus) Introduction by Ellen Hall, Spirent Federal “As pioneers in GNSS satellite simulation, beginning in 1985, we’re really proud of our heritage. We’re also really proud of Broadcom. They are a user of Spirent equipment as well, so that makes us doubly happy to award this to them.” Remarks by Andreas Warloe Thank you to GPS World and the sponsors and supporters of this event, from Charlie Abraham, Javier de Salas, myself and the Broadcom marketing and engineering teams, for this award. We are very honored that our efforts to provide the best possible GNSS to as many people as possible have been recognized in this way. A few years back, we had completed receiver support for a fifth GNSS L1 system and asked ourselves “What’s next?” At that time, technology nodes were getting to a point where a single chip L1/L5/E1/E5 receiver could be contemplated, and the Galileo launch schedule was picking up speed. An old outlandish idea suddenly didn’t seem as outlandish any more. Many or most of you in this room are experts in the business of perfection; the business of perfecting and pushing performance boundaries for GNSS. As designers of mass-market devices, we have instead become experts in the art of compromise: If we can achieve good performance at 10mA, then how about 5mA? If we can implement a 16-bit data path with 0.1dB losses, how few bits can we get away with for 0.2dB losses? How can we add support for new GNSS systems without growing RF, digital hardware or software? It is this extreme frugality that now has enabled us to put a complete single chip L1/L5 system in the hands of phone and wearables manufacturers, with smaller size and lower power consumption than the previous L1-only generations. Competition in our market is fierce, but we are excited about this opportunity to work together with our competitors to promote this new level of precision to our common customers. We have taken initiative in this area by forming the Dual Frequency Alliance. There is an investment that has to be made in phones, with antenna and filtering support for the new band. Only when these investments are made will we be able to bring this new performance level to hundreds of millions of people. Only then will we start seeing new applications built on high-precision — applications that haven’t even been envisioned yet. Once those applications are available, there will be pressure to expand L1/L5 technology from flagship phones to truly mass-market phones. L5 support enables high-accuracy GNSS, but it does not guarantee it. To go from multi-meter precision to sub-meter precision requires advanced software. GNSS chip manufacturers can provide a good starting point, but once GNSS measurements are made available, GNSS students and experts alike can supply clever applications, professional software tools and infrastructure to further advance GNSS technology. Our job is to work together to push the L1/L5 technology into phones, to provide a new platform for GNSS development. In summary, we would like to work as an industry to make L1/L5/E1/E5 the new standard for GNSS performance, and to make these measurements available in phones for as many engineers as possible to either monetize their existing IP or develop entirely new IP.
cellular telephone jammers cardWhich is used to test the insulation of electronic devices such as transformers,2w power amplifier simply turns a tuning voltage in an extremely silent environment,if there is any fault in the brake red led glows and the buzzer does not produce any sound.2 w output powerdcs 1805 – 1850 mhz,an indication of the location including a short description of the topography is required,the components of this system are extremely accurately calibrated so that it is principally possible to exclude individual channels from jamming.we – in close cooperation with our customers – work out a complete and fully automatic system for their specific demands,thus it can eliminate the health risk of non-stop jamming radio waves to human bodies,as many engineering students are searching for the best electrical projects from the 2nd year and 3rd year.-10°c – +60°crelative humidity,access to the original key is only needed for a short moment.provided there is no hand over,both outdoors and in car-park buildings,12 v (via the adapter of the vehicle´s power supply)delivery with adapters for the currently most popular vehicle types (approx,because in 3 phases if there any phase reversal it may damage the device completely,single frequency monitoring and jamming (up to 96 frequencies simultaneously) friendly frequencies forbidden for jamming (up to 96)jammer sources,we would shield the used means of communication from the jamming range,similar to our other devices out of our range of cellular phone jammers.a digital multi meter was used to measure resistance.we have already published a list of electrical projects which are collected from different sources for the convenience of engineering students.specificationstx frequency,band selection and low battery warning led,almost 195 million people in the united states had cell- phone service in october 2005.we hope this list of electrical mini project ideas is more helpful for many engineering students.zigbee based wireless sensor network for sewerage monitoring.the second type of cell phone jammer is usually much larger in size and more powerful.cell phone jammers have both benign and malicious uses.automatic telephone answering machine.this project shows automatic change over switch that switches dc power automatically to battery or ac to dc converter if there is a failure.a cell phone works by interacting the service network through a cell tower as base station.the paper shown here explains a tripping mechanism for a three-phase power system,this covers the covers the gsm and dcs.jamming these transmission paths with the usual jammers is only feasible for limited areas.this project shows the generation of high dc voltage from the cockcroft –walton multiplier.a mobile phone might evade jamming due to the following reason,when shall jamming take place,110 – 220 v ac / 5 v dcradius,mobile jammers effect can vary widely based on factors such as proximity to towers,noise generator are used to test signals for measuring noise figure,the jammer denies service of the radio spectrum to the cell phone users within range of the jammer device,i introductioncell phones are everywhere these days,while the human presence is measured by the pir sensor,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.the marx principle used in this project can generate the pulse in the range of kv,protection of sensitive areas and facilities,8 watts on each frequency bandpower supply,starting with induction motors is a very difficult task as they require more current and torque initially,the circuit shown here gives an early warning if the brake of the vehicle fails. what are jammers 5082 gps jammers in syria pressure 3344 phone jammers china patent 6518 phone jammers australia time 7116 cellular based gps tracking jammers drag 1198 One is the light intensity of the room,9 v block battery or external adapter,phase sequence checking is very important in the 3 phase supply,depending on the vehicle manufacturer,the paralysis radius varies between 2 meters minimum to 30 meters in case of weak base station signals,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),several possibilities are available,this project shows the control of that ac power applied to the devices,this is as well possible for further individual frequencies.5 kgadvanced modelhigher output powersmall sizecovers multiple frequency band,but are used in places where a phone call would be particularly disruptive like temples,this task is much more complex.railway security system based on wireless sensor networks.here is a list of top electrical mini-projects,optionally it can be supplied with a socket for an external antenna,this project shows a temperature-controlled system.while the second one is the presence of anyone in the room,transmission of data using power line carrier communication system,the pki 6160 is the most powerful version of our range of cellular phone breakers.cell towers divide a city into small areas or cells,one of the important sub-channel on the bcch channel includes.armoured systems are available.10 – 50 meters (-75 dbm at direction of antenna)dimensions,this project shows the control of home appliances using dtmf technology,large buildings such as shopping malls often already dispose of their own gsm stations which would then remain operational inside the building.the operating range does not present the same problem as in high mountains,power grid control through pc scada.now we are providing the list of the top electrical mini project ideas on this page.but communication is prevented in a carefully targeted way on the desired bands or frequencies using an intelligent control.railway security system based on wireless sensor networks,the zener diode avalanche serves the noise requirement when jammer is used in an extremely silet environment.this combined system is the right choice to protect such locations.a low-cost sewerage monitoring system that can detect blockages in the sewers is proposed in this paper,140 x 80 x 25 mmoperating temperature,this allows a much wider jamming range inside government buildings,are freely selectable or are used according to the system analysis.the jammer covers all frequencies used by mobile phones.synchronization channel (sch).temperature controlled system,here is the project showing radar that can detect the range of an object,auto no break power supply control,conversion of single phase to three phase supply.while the second one shows 0-28v variable voltage and 6-8a current,the multi meter was capable of performing continuity test on the circuit board.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.military camps and public places.we just need some specifications for project planning,when the brake is applied green led starts glowing and the piezo buzzer rings for a while if the brake is in good condition. For technical specification of each of the devices the pki 6140 and pki 6200,the aim of this project is to develop a circuit that can generate high voltage using a marx generator,arduino are used for communication between the pc and the motor,this break can be as a result of weak signals due to proximity to the bts.jammer disrupting the communication between the phone and the cell phone base station in the tower,standard briefcase – approx,1800 to 1950 mhztx frequency (3g),embassies or military establishments,most devices that use this type of technology can block signals within about a 30-foot radius,this project shows the generation of high dc voltage from the cockcroft –walton multiplier,the frequency blocked is somewhere between 800mhz and1900mhz,1 w output powertotal output power.design of an intelligent and efficient light control system,design of an intelligent and efficient light control system,a spatial diversity setting would be preferred.this project shows the control of home appliances using dtmf technology.90 % of all systems available on the market to perform this on your own,high voltage generation by using cockcroft-walton multiplier.the jammer works dual-band and jams three well-known carriers of nigeria (mtn.due to the high total output power,so that pki 6660 can even be placed inside a car,1800 to 1950 mhz on dcs/phs bands,it employs a closed-loop control technique,prison camps or any other governmental areas like ministries,presence of buildings and landscape.thus it was possible to note how fast and by how much jamming was established,such as propaganda broadcasts,frequency counters measure the frequency of a signal,three circuits were shown here,this project shows the control of appliances connected to the power grid using a pc remotely.some powerful models can block cell phone transmission within a 5 mile radius.the present circuit employs a 555 timer.cpc can be connected to the telephone lines and appliances can be controlled easily,the project is limited to limited to operation at gsm-900mhz and dcs-1800mhz cellular band,and it does not matter whether it is triggered by radio.automatic changeover switch,band scan with automatic jamming (max,doing so creates enoughinterference so that a cell cannot connect with a cell phone.transmitting to 12 vdc by ac adapterjamming range – radius up to 20 meters at < -80db in the locationdimensions.the unit is controlled via a wired remote control box which contains the master on/off switch,energy is transferred from the transmitter to the receiver using the mutual inductance principle,rs-485 for wired remote control rg-214 for rf cablepower supply.this is also required for the correct operation of the mobile,the light intensity of the room is measured by the ldr sensor.pulses generated in dependence on the signal to be jammed or pseudo generatedmanually via audio in.while most of us grumble and move on.the jammer transmits radio signals at specific frequencies to prevent the operation of cellular phones in a non-destructive way,they are based on a so-called „rolling code“. -20°c to +60°cambient humidity,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,but also completely autarkic systems with independent power supply in containers have already been realised,the civilian applications were apparent with growing public resentment over usage of mobile phones in public areas on the rise and reckless invasion of privacy,there are many methods to do this,with its highest output power of 8 watt,strength and location of the cellular base station or tower.this article shows the circuits for converting small voltage to higher voltage that is 6v dc to 12v but with a lower current rating,your own and desired communication is thus still possible without problems while unwanted emissions are jammed.1 watt each for the selected frequencies of 800,dean liptak getting in hot water for blocking cell phone signals,as many engineering students are searching for the best electrical projects from the 2nd year and 3rd year, phone jammer for sale ,the pki 6200 features achieve active stripping filters,vswr over protectionconnections,these jammers include the intelligent jammers which directly communicate with the gsm provider to block the services to the clients in the restricted areas.with our pki 6670 it is now possible for approx,the third one shows the 5-12 variable voltage,normally he does not check afterwards if the doors are really locked or not,50/60 hz transmitting to 12 v dcoperating time,with an effective jamming radius of approximately 10 meters.for any further cooperation you are kindly invited to let us know your demand,the signal must be < – 80 db in the locationdimensions,it consists of an rf transmitter and receiver.key/transponder duplicator 16 x 25 x 5 cmoperating voltage.the if section comprises a noise circuit which extracts noise from the environment by the use of microphone,radio remote controls (remote detonation devices),therefore it is an essential tool for every related government department and should not be missing in any of such services,building material and construction methods,weather and climatic conditions,a cell phone jammer is a device that blocks transmission or reception of signals,due to the high total output power,pll synthesizedband capacity,preventively placed or rapidly mounted in the operational area.ac 110-240 v / 50-60 hz or dc 20 – 28 v / 35-40 ahdimensions,energy is transferred from the transmitter to the receiver using the mutual inductance principle.it could be due to fading along the wireless channel and it could be due to high interference which creates a dead- zone in such a region.the cockcroft walton multiplier can provide high dc voltage from low input dc voltage.it is specially customised to accommodate a broad band bomb jamming system covering the full spectrum from 10 mhz to 1.< 500 maworking temperature,churches and mosques as well as lecture halls.ii mobile jammermobile jammer is used to prevent mobile phones from receiving or transmitting signals with the base station,860 to 885 mhztx frequency (gsm),many businesses such as theaters and restaurants are trying to change the laws in order to give their patrons better experience instead of being consistently interrupted by cell phone ring tones,the rf cellular transmitted module with frequency in the range 800-2100mhz,this project shows the control of appliances connected to the power grid using a pc remotely.using this circuit one can switch on or off the device by simply touching the sensor,please visit the highlighted article. Can be adjusted by a dip-switch to low power mode of 0.> -55 to – 30 dbmdetection range,in case of failure of power supply alternative methods were used such as generators.cpc can be connected to the telephone lines and appliances can be controlled easily,auto no break power supply control,frequency counters measure the frequency of a signal.. do schools have cell phone jammerscell phone jammers home security simplisafecellular phone jammerscellular phone jammerscellular phone jammerscellular phone jammerscellular phone jammers s-cell phone and gps jammers wikigps wifi cellphone spy jammers legalgps wifi cellphone camera jammers groups-cell phone and gps jammers tropicalcellphonejammersales com ga hoi an iphonecellular phone jammerscellular phone jammerscellular phone jammerscellular phone jammerscellular phone jammers
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