Application of Wave Technology in Military Aspect

action of quiver Technology in Military AspectHide and Seek in the World of WaveStudent name Choi Ho LamThank you for giving this valuable chance for me to investigate on this topic. As this topic involves military applied science, it gives a deeper understanding of roll principle and usage in effortless life. However, in normal locatetings, such(prenominal) kind of topic is not included, as it stop be so singler controversial. Fortunately, in this CCST pipeline, I am allowed to choose this topic and enrich my engineering knowledge to a deeper ext sack.theme geographicAfter watching the show Hilters stealth Fighter, it gives me a cle ber flush on starting the research on this topic. It enriches my knowledge on the use of ram down in relation with RF wave properties.Teaching assistants of the courseThe teaching assistants in the course are helpful. Their opinions help me to narrow my direction in investigating to specific topics corresponding receiving setlocation and s pecific technology related to microwave radio detection and ranging. With disclose their help, I would quiet wonder in the wild manhood of military and aimlessly searching for a equal topic.2. psychiatric hospital radio detection and ranging detection and stealth technology are like a game of hide and try with the application of wave technology. They share the opposite aims, either finding wholeness or avoid from be found. In the world of military, this is a game that salmagundis the fate of the world and losing is not an option.During the World War II, the deployment of microwave microwave radar in British had changed the tide of battle in the English Channel. Fighting against 2550 German belligerents and bombers, the Royal crease Force (RAF) was able to attack strategically and stopped German invasion with just 1963 planes. After this battle, British served as the last stand among European nations against Nazi Germany.With such important history, the military value fo r radar as well as its counterpart, stealth technology were deeply investigated. Nazi Germany had suffered from a direct smite from this battle. Since then, Nazi Germany carried out various researches on stealth aircrafts. Just single month near the end of WWII, the first prototype stealth bomber, Horten Ho 229 was developed. Recent research from National Geographic show that such plane decreases the detection range of British radar by 37%, which is already enough for wiping out the entire RAF. It was so fortunate that the plane wasnt in mass production or the course of history would have been change completely.This paper aims at studying the application of wave technology in the use of radar, as well as the principles in most of the counter radar measures. Since it is a CCST coursework, some of the complicated mathematical procedures and modern method of radar kettle of fish would be omitted. Nevertheless, by studying such technology, we ass establish a better understanding of different wave phenomena and know how they change our life.3. meaning3.1 radiolocationRadar stands for Radio Detecting and Ranging. In general, radar detects a far object by sending a round of EM wave and measures the succession and frequence for the reflected pulse. By analyzing these factors, the hurrying and the aloofness of the far object can be found.In a macroscopic view, radar consists of 3 primary parts, a transmitter, a duplexer and a receiving system.The transmitter emits a short-duration high-power radio absolute frequency (RF) pulse. The pulse volition give way through the transmitter antenna and emit outwards. The antenna can give appreciate quad for efficient distribution of RF pulse.When the RF pulse hit an obstacle, the RF pulse is reflected back to the receiver. The receiver antenna ordain receive the manifestation and analysis the time of travel as well as the frequency of reflected pulse.Since the receiver antenna is very sensitive as it is assumed t o be receiving the small pulse reflected back from far distance, a duplexer is installed to switch the between two antenna. This can ensure merely one antenna is in use and prevent receiver antenna receiving head directly from the transmitter antenna, which can potentially damage the receiver antenna.In a microscopic view, an alternating current (AC) is supplied to the antenna. It then produces a upright style alternating magnetic field around the antenna.By Lenzs Law, for a closed handbuild carrying a current, it would produce a magnetic field perpendicular to current around the loop. In reverse, for a closed loop experience a change in magnetic field, a current perpendicular to magnetic field is generated to oppose the change.The combination of alternating current and magnetic field produces the electromagnetic wave that used for detection. The frequency of the EM wave can be changed by modifying the AC frequency. The frequency of the electromagnetic wave is usually set to bet ween 3 kHz to 300 GHz at radio frequency (RF). It varies depends on the usage. With a higher frequency, victimisation relation with pep pill of light (C) and wavelength () C=F, the wavelength of RF wave is shorten. This decreases the electrical length of the antenna to and makes it easier to build.In military use, the RF pulse would set to lower frequency portion in the RF spectrum, usually between 7 to 11.2 GHz, which is called the X band. universe in RF spectrum, the high frequency radar pulse can create a radar cross-section of aircraft with a higher resolution, which helps identify aircraft more than accurately. In more advance use, a overmuch lower frequency is used to reveal stealth aircraft since it can give a much more sensitive signal. With a low frequency, the wavelength of radar pulse is comparable to size of stealth fighter and creates a scattering in resonance region instead of optical region, turning it more visible on radar. However, the frequency of the radar pu lse cannot be lower than 800 MHz, otherwise the EM pulse would have meager penetrating power and easily be absorbed by raindrops. Other than that, the resolution of low frequency radar is relatively poor, and gives a poor display. It is only effective against stealth aircraft of length comparable to wavelength.When the radar pulse is bound back to the radar, the antenna experience an alternating change in magnetic field. This will produce an alternating electrical field and thus an AC current to flow in circuit. Since the go signal is weak, it would pass through an amplifying circuit to increase the amplitude.In analyzing the signal, the frequency and time of travel would be taken to find the speed and velocity of detection target. When the radar pulse reaches an object, it is reflected and the frequency is shifted by Doppler Effect.Since the speed of RF wave is always the speed of light (C), the distance (S) can be express as a time (t) function,S = Ct/2.It is divided by two sinc e the radar pulse travel through the same distance twice.To calculate speed of moving object, we can find out the change in frequency (Doppler frequency) of the returning wave. If the far object is moving, the object would create a Doppler shift to the radar pulse. This Shifted frequency () can be expressed by original frequency (), the moving speed (V) and speed of light (C).,which gives us the Doppler frequency () .For convenience, one assume, such that, and simply the equation as.3.2 Radar press and deceptionRadar press and deception usually refer to the intention of saturating the radar with noise and pretended discipline, lowering the detection range of radar as well as the accuracy of the radar. There primarily two types of pickle, either mechanical jamming or electronic jamming.Mechanical jammingMechanical jamming usually refer to use of physically existed thing to reflect and re-reflect RF signal back to radar, causation the radar to be saturated with false return sig nal.The commonly used mechanical jamming methods that meet wave principles are chaff and corner reflectors.Chaff is bundles of reflective aluminum strip of various lengths. The aircraft drops these strips in air. When radar pulse reaches these strips, the radar pulse is reflected and scattered in all direction, creating huge return signal to the receiver. This could deceive the radar as seeing huge plane and deplete enemy resources like ammo on shooting down the false target.Corner reflector reflects incoming radar pulse at other angle. Corner reflector is composed of either two or three reflective planes, perpendicular to each other. This configuration allows the incoming radar ray fully reflected back to the source. Yet this also increases redundant occupation of corner reflector, making it harder to carry by aircraft. The tails of the stealth fighter are intentional to be acute angle, such that it avoids forming corner reflector, allowing radar to identify the airplane.Electr onic jammingElectronic jamming refers to the active emission of RF pulse to the radar, saturating the radar with false return and noises. It includes spot jamming, sweep jamming, flush jamming, cover pulse jamming and digital radio frequency memory jamming.Spot jamming, sweep jamming, barrage fire jamming uses the same principle, occupying the radar with high energy pulse and causing destructive interference of the RF wave.Spot jamming refers to jamming one specific frequency with high energy signal.Sweep jamming refers to jamming one specific frequency with high energy signal when the radar is switching from one frequency to another.Barrage jamming refers to jamming all specific frequency with high energy signal, hitherto since it cover full range of frequency, each frequency are partially jammed.Cover pulse jamming refers to false return signal as noise. As radar receives certain amount of ambient noise, for example, like scanning through eagle and other types of bird, so it co uld be used as disguise for fighter to hide from radar. With pulse jamming system installed, the aircraft analysis the incoming radar signal and find suitable frequency for false noise return.Digital radio frequency memory is a repeater proficiency that analysis the incoming radar pulse and changes the returning frequency as well as time of return. The signal would be delay and diminish. This gives a false sign of far distance between aircraft and radar. Moreover, the frequency would also be shifted and produce a false Doppler shift on radar signal. This returns with false information about the velocity of aircraft.3.3 Use of RAMBesides of active jamming and deceiving radar, the military develop RAM to avoid radar detection from the enemy.RAM stands for the Radar-Absorbance Material. According to the detecting radar frequency, different types of RAM are used to build stealth aircrafts.Iron ball paint absorberIron ball paint is one of the mostly used RAM. It contains little spheres coated with carbonyl iron and ferrite. As radar waves induce molecular oscillation in this paint, the energy would dissipate as heat. This can absorb the radar and keep down the expression of radar wave.Re-entrant trianglesThe structures of re-entrant triangles in between the bulge out foam absorber layer help reduce reflection of radar ray back to radar transceiver. Inside the foam absorber layer, the foam was cut into tiny square pyramid. This structure reflect incoming wave several times and reduce the energy of the radar wave.In practice, the width and line of longitude would change according to the incoming radar wave. The main purpose of adjusting height and width ratio is to achieve maximum internal reflection within the plane arise as possible.Jaumann absorberThe wave principle deployed by Jaumann absorber is destructive interference. Gerneally, Jaumann absorber consist of two equally spaced layer and a foothold metal plate. It cancels out the incoming wave by produci ng destructive interference.When a radar signal strikes on to the surface of Jaumann absorber, the wave split in to two waves, one is reflected at glossy surface of the Jaumann absorber, while the other enters the layer. The ray will then reflect back by the metal ground plate. The two layers having a total spacing of /4 will allow the wave reflected back to surface at anti-phrase compare to incoming ray, where the ray have travelled a total of /2 distance. polishRadar principle make use of various wave property in tracing the enemy. In engineering, there is a sub-discipline for radar analysis, for a more precise interpretation of radar signal. This paper includes only few example and it was just a corner of iceberg. However, in just a brief analysis, we can see advancement of technology as people know more about wave and using this knowledge to build stealth aircraft. This game of hide and seek can be devastating to world as it brings a much higher casualties in war, however this g ame has also proven to be saving life war and pushing the advancement of technology.Would this game be beneficial to human? It would be an unanswered question waiting for the people to decide.ReferenceRadar. (n.d.). Retrieved from http//en.wikipedia.org/wiki/RadarODonnell, Robert. RES.LL-001 Introduction to Radar Systems, Spring 2007. (MIT OpenCourseWare mum Institute of Technology), http//ocw.mit.edu/resources/res-ll-001-introduction-to-radar-systems-spring-2007 (Accessed 28 Nov, 2014). License Creative Commons BY-NC-SAWolff, C. (n.d.). Radar Principle. Retrieved from http//www.radartutorial.eu/01.basics/Radar Principle.en.htmlToomay, J., Hannen, P. (2004). Radar Principle for the Non-Specialist (3rd ed.). SciTech Publishing.Hitlers Stealth Fighter Motion picture. (2009). United State of America National Geographic.Garcia, L. (n.d.). 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