new technologies in electronics

5/28/2018 New Technologies in Electronics

1/12

Waterless Washing Machine Cleans Laundry Through Magnetic Levitation Lytro Light Field CameraThe Next Generation Camera is Here Next Generation 3D Holographic Displays Invention Story of Mobile Phone Wireless Power Transmission

1. Working of MAGLEV Trains

This seminar topic gives a detailed explanation about one of the worlds fastest transportation

concept called MAGLEV Train, which works on the principle of Magnetic Levitation. The

comparison between a MAGLEV train and a conventional train is also given along with

diagrams. The speed of such trains and its commercial use in different countries are alsoexplained. Two types of technologies that are used to drive the train called Electromagnetic

Suspension (EMS) and Electro-dynamic Suspension are also explained in detail. The pros and

cons of such a train and its environmental friendliness are also given in the post.

2. How Global Positioning System (GPS) Works?

Almost all cars have GPS installed in them. This helps the driver to reach his destination without

getting lost. They can also be installed in mobiles. This topic can is very suitable for

communication engineering students. The working f GPS is explained with a video and adetailed description. A method called trilateration is also explained. This method is the basis on

finding the exact position you are presently in. The different methods for calculating the distance

and location of the satellite and receiver for knowing your position is also explained. Theadvantages, applications, and the benefits of using differential GPS system are also explained.

3. Augmented Reality (AR) Technology

Augmented Reality deals with the integration of the real and virtual world so that graphics can be

seen in a 3-D format. Thus, a widely produced graphics in such a technology will surely enhanceeveryones perception of the real world. The basic components used for this technology like

displays, tracking and orientation methods, softwares used are all explained in detail. Its

applications in various fields like gaming and entertainment, education, security and defence,and medicine is also explained in detail.

4. Nanotechnology

This article describes the definition, history and concept of nanotechnology in detail.

Nanotechnology mainly deals with the method by which full functional objects can bmanufactured in a molecular scale. The article also shows a figure in which the usual scale of a

common man made material is compared with nanomaterials. Two basic concepts of this

technology called the bottom-up concept and the top-down concept are also explained in detail.

After going through this technology, you could check out further informative posts by clickingon the linkMore on Nanotechnology

5. Working of Facial Recognition System
http://www.circuitstoday.com/working-of-maglev-trainshttp://www.circuitstoday.com/working-of-maglev-trainshttp://www.circuitstoday.com/how-global-positioning-systemgps-workshttp://www.circuitstoday.com/how-global-positioning-systemgps-workshttp://www.circuitstoday.com/augmented-reality-technologyhttp://www.circuitstoday.com/augmented-reality-technologyhttp://www.circuitstoday.com/nanotechnologyhttp://www.circuitstoday.com/nanotechnologyhttp://www.circuitstoday.com/category/nanotechnologyhttp://www.circuitstoday.com/category/nanotechnologyhttp://www.circuitstoday.com/category/nanotechnologyhttp://www.circuitstoday.com/working-of-facial-recognition-systemhttp://www.circuitstoday.com/working-of-facial-recognition-systemhttp://www.circuitstoday.com/working-of-facial-recognition-systemhttp://www.circuitstoday.com/category/nanotechnologyhttp://www.circuitstoday.com/nanotechnologyhttp://www.circuitstoday.com/augmented-reality-technologyhttp://www.circuitstoday.com/how-global-positioning-systemgps-workshttp://www.circuitstoday.com/working-of-maglev-trains


2/12

This topic mainly deals with the use of softwares combined with electronics to detect a person

from a huge crowd. This is mainly used by law enforcement agencies, and also in ATMs. The

article mainly deals with the different methods used to recognize a person with almost 99%accuracy. A detailed figure showing the different nodal points that are used by the software to

compare the original photo with the video captured one is shown in the article. The different

comparison procedures like vector template, local feature analysis, and surface texture analysis isalso explained in the post. The advantages, disadvantages, and applications are also given.

6. Working of Electronic Ink (E-ink) Technology

The method of using a type of digital ink to write on screens is used in this technology. Three

components are used for manufacturing this ink. They include millions of microcapsules, the inksubstance present in an oily form which fills the microcapsules, and the negative charged

pigmented chips or balls which float inside the microcapsules. This article describes in detail

about the exact working of this material, and about the type of screen that is used for this

purpose. A figure showing the working and the uses of this technology can also be seen in the

link above.

7. Working of Fingerprint Scanner

A finger printer scanner is used by most companies to restrict outsiders from coming in. Evenlaptops have fingerprint scanners to allow the owner to restrict others from using his confidentialdata, or websites, and so on. This article gives a detailed study of the use of such devices, the

way it works, how fingerprint is analyzed, and so on. The two types of fingerprint scanner

optical scanner and capacitance scanner are also explained. The working is explained with a welldescribed block diagram, along with the devices advantages and disadvantages.

8. Photonic Integrated Circuit (PIC)

Photonic Integrated Circuit (also known as PIC), is a complex integrated circuit whichincorporates a lot of optical devices to form a single photonic circuit. The article describes the

difference between a PIC and the conventional Electronic Integrated Circuits. A figure of a

GaAs-InP Photonic integrated circuit is also explained in detail. Two basic photonic integration

methods like Hybrid Photonic Integration and Monolithic Photonic Integration are also explainedin this article. You can also look at the advantages and applications of PIC from the link above.

9. Working of 3-D TV

Nowadays, most movies are made in 3-D and the special effects that are brought into the moviesmake it cooler. 3-D Technology is explained in detail, including the type of glasses that are usedto watch such movies, and how to make them by yourself. The basics of 3-D are explained along

with its difference with 2-D. Stereoscopic TV and Autostereoscopic TV is also explained in this

post. The future development that is going to happen to this technology is also given in thisarticle.

10. RedTacton Technology
http://www.circuitstoday.com/working-of-electronic-ink-e-ink-technologyhttp://www.circuitstoday.com/working-of-electronic-ink-e-ink-technologyhttp://www.circuitstoday.com/working-of-fingerprint-scanner-2http://www.circuitstoday.com/working-of-fingerprint-scanner-2http://www.circuitstoday.com/photonic-integrated-circuithttp://www.circuitstoday.com/photonic-integrated-circuithttp://www.circuitstoday.com/working-of-3-d-tvhttp://www.circuitstoday.com/working-of-3-d-tvhttp://www.circuitstoday.com/redtacton-technologyhttp://www.circuitstoday.com/redtacton-technologyhttp://www.circuitstoday.com/redtacton-technologyhttp://www.circuitstoday.com/working-of-3-d-tvhttp://www.circuitstoday.com/photonic-integrated-circuithttp://www.circuitstoday.com/working-of-fingerprint-scanner-2http://www.circuitstoday.com/working-of-electronic-ink-e-ink-technology


3/12

RedTacton Technology is a concept that refers to the transmission of signals at very high speeds

through the human body. Just like theBluetooth Technology,this concept is also known to be

wireless in nature. The transmitter and receiver used in RedTacton and is explained with the helpof a figure. Some interesting features of the technology like touch, media, and broadband are also

explained with an image. Its applications and comparison with other wireless technologies like

w-fi, RFID, Bluetooth, and W-CDMA are also explained.

11. Smart Antennas

Smart Antennas are adaptive array antennas that are designed for one main purpose to maintain

the high efficiency in digital wireless communication systems. The objective is obtained by

taking the advantage of the diversity effect at the transceiver of the wireless system that is thesource and the destination. This concept has already been adapted in some wireless

communication systems as special antenna arrays are used with signal processing algorithms

which can easily locate and track the different wireless targets such as mobiles. The two

functions of smart antennas namely estimation of direction of arrival, and beamforming method

is also explained in detail. Adaptive array antennas and phased array antennas are also explainedin the article. The difference between this antenna and the conventional one is also given along

with its advantages and disadvantages.

12. Working of Standing Wave Ratio (SWR) Meters

This device is used to measure the standing wave ratio in a communication line. The meter will

denote the exact mismatch between the transmission line and the load, thus helping to know the

degree of effectiveness of the impedance matching efforts. The article explains in detail aboutthe topic with a neat figure. The SWR bridge circuit and the problems with that could occur with

he use of SWR meter is also explained in the article.

13. 3-D Handwriting Technology Make Functional Electronic Circuits on Paper Using

Silver Ink Pen

The basic method for making electronic circuits is by designing a PCB or a Vera board for the

purpose. This technology called 3-D handwriting simplifies the whole process by just drawing

the layout on a paper with a silver coloured liquid metal ink. An image showing an illustration ofthe technology is given in the original post. The pen used for drawing the circuit is made of an

ink with conductive property.

14. Faster Data Transfer with Point and Paste Technology

All types of communication between business people and also friends are now made through e-mails and social networking sites. But, a greater method to send data would be through the so

called Point and Paste Technology. The method uses a temporary storage for the data while

you point out at a certain data on your device and just touch another device where it is to bestored.

15. Lenticular Lenses
http://www.circuitstoday.com/bluetooth-technologyhttp://www.circuitstoday.com/bluetooth-technologyhttp://www.circuitstoday.com/bluetooth-technologyhttp://www.circuitstoday.com/smart-antennashttp://www.circuitstoday.com/smart-antennashttp://www.circuitstoday.com/working-of-standing-wave-ratio-swr-metershttp://www.circuitstoday.com/working-of-standing-wave-ratio-swr-metershttp://www.circuitstoday.com/make-functional-electronic-circuits-on-paper-using-silver-ink-penhttp://www.circuitstoday.com/make-functional-electronic-circuits-on-paper-using-silver-ink-penhttp://www.circuitstoday.com/make-functional-electronic-circuits-on-paper-using-silver-ink-penhttp://www.circuitstoday.com/make-functional-electronic-circuits-on-paper-using-silver-ink-penhttp://www.circuitstoday.com/make-functional-electronic-circuits-on-paper-using-silver-ink-penhttp://www.circuitstoday.com/faster-data-transfer-with-point-and-paste-technologyhttp://www.circuitstoday.com/faster-data-transfer-with-point-and-paste-technologyhttp://www.circuitstoday.com/lenticular-lenseshttp://www.circuitstoday.com/lenticular-lenseshttp://www.circuitstoday.com/lenticular-lenseshttp://www.circuitstoday.com/faster-data-transfer-with-point-and-paste-technologyhttp://www.circuitstoday.com/make-functional-electronic-circuits-on-paper-using-silver-ink-penhttp://www.circuitstoday.com/make-functional-electronic-circuits-on-paper-using-silver-ink-penhttp://www.circuitstoday.com/working-of-standing-wave-ratio-swr-metershttp://www.circuitstoday.com/smart-antennashttp://www.circuitstoday.com/bluetooth-technology


4/12

This i s a completely new technology through which you get to see 3D movies with the same

effect, and that too without the use of glasses. The basic idea used behind this technology is

called lenticular viewing. Tiny cylindrical plastic lenses are placed on the screen of an LCD tv.This sheet gives all the 3-D effects needed. The detailed explanation is given in the post above

with neat figures.


5/12

list of paper presentation topic suggestions for Electronics Engineering Students.

Automotive Infotainment Automated Eye-Pattern Recognition Systems Augmented Reality ATM Asymmetric digital subscriber line Astrophotography Artificial intelligence for speech recognition Artificial immune system. Artificial Eye Architectural requirements for a DSP processer Antenna Effect in VLSI Designs Animatronics AFM ultrafast Imaging Advanced Mobile Presence Technology Advanced in DCS Systems Adaptive Multipath Detection Adaptive Active Phased Array Radars Active pixel sensor DSP Enhanced FPGA DNA Based Computing DNA Chips Disposable Nano Pumps Direct to Home Television (DTH) Digital steganography Digital Micro-mirror Device Digital transmission content protection (DTCP) Digital Photography Digital Light Processing Digital Imaging Digital Hubbub

Digit recognition using neural network Dense Wavelength Division Multiplexing Crystaline Silicon Solar Cells Cryptography CRUSOE PROCESSOR Cortex M3 Micro controllers Convergence Of Microcontrollers And DSPs


6/12

Compressed Air Car Common Address Redundancy Protocol Clockless Chips Class-D Amplifiers Cholestric Flexible Displays(Ch LCDs) charge-coupled device (CCD) Chameleon Chip Cellular technologies and security. Cellular geolocation. Cellular Digital Packet Data (Cdpd) Cellonics Technology Carbon Nano Tubes Carbon Chips Cam timer Business Process Execution Language (BPEC) Brushless Motors brain-computer interface Brain Gate Brain finger printing Bluetooth based smart sensor networks Blue Eyes Blu Ray Disc Bionic Eye BICMOS TechnologyBio chips Free Space Optics Fractal Robot Fpga offloads dsps. Fluid Focus Lens Floating gate Transistor FireWire FinFET Technology Field-programmable gate array field emission display (FED) Fibre Optic Communication Femtotechnology Fault Diagnosis Of Electronic System using AI Eye gaze human computer interface. Extreme ultraviolet lithography Evolution Of Embedded System


7/12

EUV Lithography E-Paper Technology Enhanced Data rates for Global Evolution Enhanced data rates for gsm evolution Embedded Systems In Automobiles Embedded DRAM Elliptical curve cryptography (ECC) Electronic Road Pricing System Electronic humidity sensor Electrical Impedance Tomography Or EIT E-governance. EDRAM Earth Simulator dynode Dynamic VPN Dual Energy X-ray Absorpiomsetry low Quiescent current regulators Low voltage differential signaling (LVDS) Low Power Wireless Sensor Network Low Power Video Amplifiers Litz wire Light Pen LDMOS Technology LCOS Technology Klystron tube Josephson junction IRQ Numbers Inverse Multiplexing over ATM Intruction detection system Interactive Voice Response System Intelligent RAM (IRAM) Intelligent transport. Intel express chipsets. IN-MOTION RADIOGRAPHY I-MODE Immersion Lithography Imbricate cryptology Imaging radar. image compression


8/12

Illumination With Solid State Lighting iButton HY-Wire Cars Hot Swapping Hot Standby Routing Protocol (HSRP) Homeplug powerline communication HMDI- New Digital Video Interface HIPPI (HIgh Performance Parallel Interface) High performance Computing. High Capacity Flash Chips High Altitude Aeronautical Platforms Heterojunction Bipolar Transistors (HBTs) Heliodisplay HD Radio Hall Sensor Apllications Global System for Mobiles Global Positioning System Genetic Programming Fuzzy Logic Fusion Memory Fundamental Limits Of Silicon Technology Free space laser communication NAND Flash Memory Multiple description coding. Multichannel DC Convertors Multi threading microprocessors MST in Telecommunication Networks Moletronics- an invisible technology Molecular Finger printing Molecular Electronics Mobile Processor MIMO MILLIPEDE Military Radars Microvia Technology Microphotonics Microfuel Cells Micro-fabricated Bio-sensors Microelectronic Pills~


9/12

Micro System Technology in Security Devices Micro electronics Micro Display Meso Technology Mesh Radio Media Oriented Systems Transport (MOST) Network Magnetic Resonance Imaging Magnetic Resonance Force Microscopy(MRFM) Magnetic Amplifiers Low-density parity-check code Power less Illumination Polytronics Polymer memory PMR ( Private Mobile Radio) Revolution Plastic electronics Plasma antenna Personal Area Network Passive Optical Sensors Passive Integration Passive InfraRed sensors (PIRs) Palladium cryptography Packet Switching chips Packet Cable Network Orthogonal Frequency Division Multiplexing Organic LED Organic electronics Optical networking Optical Communications in Space Optical Coherence Tomography(OCT) Open RAN NVSRAM- Non Volatile Static RAM NRAM Next Generation Internet New methods to power mobile phones Neuroprosthetics Neural Networks Network Service Access Point (NSAP) Network on Chip Near Field Communication


10/12

Native Command Queuing (NCQ) Nanotechnology for Future Electronics Nanopolymer Technology Nanoimprint Lithography Nano Fog Surround sound system Surge Protection In Modern Devices Surface-Conduction Electron-Emitter Display (SED) Surface Mount Technology Subversion Steganography In Images Sputtering Spintronics Speaking I-Pods Space Quantum Cryptology Souped-Up Mesh Networks Solid State RF Switches Solid State Lighting Solar Power Satellite Software Radio Soft lithography Smart Pixel Arrays Smart Cameras in Embedded Systems Silicon Photonics Serial Attached SCSI Self Healing Spacecrafts Self Healing Computers SCSI Scalable Coherent Interconnect (SCI) Satellite Digital Radio SAT MODE RTOS VXWORKS Robotic balancing RF MEMS RF CMOS Resilient Packet Ring (RPR). Remotely Queried Embedded Microsensors Remote Monitoring And Thought Inference Remote energy metering


11/12

Real-Time Obstacle Avoidance Real Time Speech Translation Radio Frequency Light Sources Radio Frequency Identification Radiation Hardened Chips QXGA (Quad eXtended Graphics Array) Quantum dots Quantum cryptography Quadrics network Proteomics Chips Project Oxygen Printed Memory Technology Printable RFID circuits Power over Ethernet Power of Grid Computing USB Power Injector Ultra wide band( UWB) technology. U3 Smart Technology Turbo codes. Tunable lasers Trisil Tri-Gate Transistor Trends in Mobiles & PCs Trends in appliance Motors Trays Transient Stability Assessment Token ring IEEE 802.5 Thermal infrared imaging technology The Vanadium Redox Flow Battery System The Ultra Battery The mp3 standard. The making of quantum dots. Terahertz Waves And Applications Terahertz Transistor Telestrator Teleportation Tele-Medicine Tele-Graffiti Tagged Command Queuing


12/12

Tablet PC Sziklai pair (configuration of two bipolar transistors) Synthetic Aperture Radar System Symbian VXI bus architecture VT Architecture Visual Prosthetics Virtual Keyboards Virtual Surgery Virtual Router Redundancy Protocol (VRRP) Virtual retinal display (VRD) Technology Virtual Reality Vertical Cavity surface Emission Lasers Vacuum Electronics For 21st Century

E-nose

E-paper

Fuzzy logic

Reverse Magnetism

Utilization Of Solar Energy

V/F method of speed control

Wireless Application protocol

Broadband Communication & Information Systems

Wireless power transmission

Money Pad, The Future Wallet

Buffer overflow attack : A potential problem and its Implications

Robotic Surgery

Swarm intelligence & traffic Safety

Smart card
http://www.engineersworldonline.com/broadband-communication-information-system.htmlhttp://www.engineersworldonline.com/broadband-communication-information-system.htmlhttp://www.engineersworldonline.com/robotic-surgery-seminar-topics.htmlhttp://www.engineersworldonline.com/robotic-surgery-seminar-topics.htmlhttp://www.engineersworldonline.com/broadband-communication-information-system.html

new technologies in electronics

Documents