The document provides information on the Boeing P-8 Poseidon, a military aircraft developed for anti-submarine warfare and maritime surveillance missions. It was developed by modifying the Boeing 737-800ERX to carry weapons and deploy sonobuoys. The P-8 replaces the older Lockheed P-3 Orion and entered service with the US Navy in 2013. Variants include the P-8A for the US, P-8I for India, and a proposed signals intelligence version. The P-8 has a strengthened fuselage and wings compared to the 737, along with enhanced sensors and weapons capacity.
Smart fabrics are fabrics that have been developed with technologies that provide added functionality. They can sense environmental conditions and stimuli, and some can even react or respond to stimuli through properties like heat, moisture, stretch, and electricity. Examples include fabrics that can light up, change color, or regulate body temperature. Smart fabrics have applications in healthcare for monitoring vital signs, in athletics to improve performance, and in military gear. They are created through processes like weaving, knitting, and embroidery that incorporate conductive materials and microelectronics into fabrics.
Smart fabrics by radhika ...loyola academy...akhil426713
Smart fabrics are fabrics that can change or react automatically to their surroundings through the integration of electronics like sensors, microprocessors and actuators. Some examples include smart fabric heaters that heat on demand when pressure is applied, wireless fabric keyboards and wearable electronic textiles that can control devices. Smart fabrics offer benefits like being lightweight, washable and versatile but current limitations include the need for batteries and charging and high costs.
Smart Fabric - This shirt knows when you are tired, excited or unwell! - City...Merlien Institute
The document summarizes an event called MRMW Chicago from May 27-30, 2014 at the Congress Plaza Hotel & Convention Center. It was organized by various title, gold, silver, and workshop sponsors as well as association and education partners. The event included a networking reception and used an event app and had various media partners. The document also provides information about Cityzen Sciences, a company that develops smart sensing technology like the D-Shirt that embeds sensors in textiles to monitor biometrics in real-time. It discusses Cityzen's projects, partnerships, and goals to develop new generations of smaller, more integrated sensors and use big data to provide analytics and insights from physiological data.
Organic Light Emitting Diode or OLED
An OLED is a solid state device or electronic device that typically consists of organic thin films sandwiched between two thin film conductive electrodes. When electrical current is applied, a bright light is emitted. OLED use a carbon-based designer molecule that emits light when an electric current passes through it. This is called electrophosphorescence. Even with the layered system, these systems are thin . usually less than 500 nm or about 200 times smaller than a human hair.
This document provides an overview of organic light-emitting diode (OLED) display technology. It discusses what an OLED is, how it works, its layered structure, types including passive matrix and active matrix OLEDs, advantages like flexibility and brightness, and applications in devices like phones, cameras, TVs and more. The main principle is that OLEDs emit light when an electric current is applied as electrons combine with holes in the emissive layer, allowing for thinner, more energy-efficient displays.
Apple iPhone 6S : Features and Specifications UnveiledPalka Khurana
Apple has come with latest iPhone 6s and iPhone 6s Plus with new features and improved camera. Find the lowest price of any product at www.price-hunt.com
The document provides information on the Boeing P-8 Poseidon, a military aircraft developed for anti-submarine warfare and maritime surveillance missions. It was developed by modifying the Boeing 737-800ERX to carry weapons and deploy sonobuoys. The P-8 replaces the older Lockheed P-3 Orion and entered service with the US Navy in 2013. Variants include the P-8A for the US, P-8I for India, and a proposed signals intelligence version. The P-8 has a strengthened fuselage and wings compared to the 737, along with enhanced sensors and weapons capacity.
Smart fabrics are fabrics that have been developed with technologies that provide added functionality. They can sense environmental conditions and stimuli, and some can even react or respond to stimuli through properties like heat, moisture, stretch, and electricity. Examples include fabrics that can light up, change color, or regulate body temperature. Smart fabrics have applications in healthcare for monitoring vital signs, in athletics to improve performance, and in military gear. They are created through processes like weaving, knitting, and embroidery that incorporate conductive materials and microelectronics into fabrics.
Smart fabrics by radhika ...loyola academy...akhil426713
Smart fabrics are fabrics that can change or react automatically to their surroundings through the integration of electronics like sensors, microprocessors and actuators. Some examples include smart fabric heaters that heat on demand when pressure is applied, wireless fabric keyboards and wearable electronic textiles that can control devices. Smart fabrics offer benefits like being lightweight, washable and versatile but current limitations include the need for batteries and charging and high costs.
Smart Fabric - This shirt knows when you are tired, excited or unwell! - City...Merlien Institute
The document summarizes an event called MRMW Chicago from May 27-30, 2014 at the Congress Plaza Hotel & Convention Center. It was organized by various title, gold, silver, and workshop sponsors as well as association and education partners. The event included a networking reception and used an event app and had various media partners. The document also provides information about Cityzen Sciences, a company that develops smart sensing technology like the D-Shirt that embeds sensors in textiles to monitor biometrics in real-time. It discusses Cityzen's projects, partnerships, and goals to develop new generations of smaller, more integrated sensors and use big data to provide analytics and insights from physiological data.
Organic Light Emitting Diode or OLED
An OLED is a solid state device or electronic device that typically consists of organic thin films sandwiched between two thin film conductive electrodes. When electrical current is applied, a bright light is emitted. OLED use a carbon-based designer molecule that emits light when an electric current passes through it. This is called electrophosphorescence. Even with the layered system, these systems are thin . usually less than 500 nm or about 200 times smaller than a human hair.
This document provides an overview of organic light-emitting diode (OLED) display technology. It discusses what an OLED is, how it works, its layered structure, types including passive matrix and active matrix OLEDs, advantages like flexibility and brightness, and applications in devices like phones, cameras, TVs and more. The main principle is that OLEDs emit light when an electric current is applied as electrons combine with holes in the emissive layer, allowing for thinner, more energy-efficient displays.
Apple iPhone 6S : Features and Specifications UnveiledPalka Khurana
Apple has come with latest iPhone 6s and iPhone 6s Plus with new features and improved camera. Find the lowest price of any product at www.price-hunt.com
Apple launched the iPhone 4S in October 2011. Key features included an improved 8 megapixel camera, the powerful dual-core A5 processor, and Siri voice assistant. The iPhone 4S retailed starting at $199 for a 16GB model. Apple marketed the iPhone 4S through a variety of traditional and digital channels, targeting professionals, students, and other groups. The phone was distributed through Apple retail stores, online stores in 36 countries, and third-party retailers.
Electromagnetic pulse generator(emp bomb) raja sukumar
This document describes the design and operation of an electromagnetic pulse (EMP) generator. The EMP generator consists of two circuits - one to store energy from a wall outlet using a capacitor, and another to release this energy through a loop of wire, generating an electromagnetic pulse. The purpose of the EMP is to electrically destroy electronics through rapidly heating semiconductor materials. Safety precautions are required when working with the high voltages involved. Further research could optimize EMP effects and electronic shielding.
Foreign direct investment (FDI) is a direct investment into production or business in a country by an individual or company in another country, either by buying a company in the target country or by expanding operations of an existing business in that country.
This project report describes the development of a test jig for testing the MODE-S drawer of IFF equipment. Some key issues with current testing methods are the need to test using the full IFF system, which is time-consuming, and the lack of a standalone test solution for the MODE-S drawer. The proposed test jig includes a pulse generator circuit to generate trigger pulses, and interfaces to monitor signals and outputs from the MODE-S drawer unit. Use of the test jig is expected to reduce testing time and allow more efficient troubleshooting, resulting in estimated savings of over 300,000 rupees.
The document discusses organic light-emitting diodes (OLEDs), which are thin films of organic compounds that emit light when electric current is applied. It provides a brief history of OLED development from the 1950s and describes the basic working principle of OLEDs involving organic semiconductor layers and electrodes. The document also outlines different types of OLEDs and their applications, as well as advantages such as high contrast, flexibility, and energy efficiency compared to LCDs. Potential disadvantages discussed include higher manufacturing costs and limited lifespan.
Light emitting polymers (LEPs) emit light when an electric field is applied. LEPs consist of a thin film of polymer sandwiched between an anode and cathode. When a voltage is applied, electrons are injected from the cathode and holes from the anode, which recombine and emit light radiatively. LEPs have advantages such as low energy consumption, suitability for large area lighting, simple fabrication process, and potential for flexible displays.
Introduction to 3D Holographic TechnologyAndrew Japar
3D Holographic Technology presentation in VR Meetup V0.2.
Hologram Technology pushes your virtual expectation to break boundaries into engaging digital experience. - Andrew Japar
The document discusses biochips, which are miniaturized test sites arranged on a solid substrate that can perform thousands of biological reactions simultaneously. Biochips can be used to analyze organic molecules, identify gene sequences, and detect pollutants. The document outlines the history, components, workings, applications, advantages, and future of biochip technology.
This document provides an overview of OLED (organic light-emitting diode) technology. It discusses how OLEDs work using organic compounds to emit light, their advantages over other display technologies like thinner/lighter/more flexible designs and low power consumption. The document also covers OLED applications, challenges like short lifetimes, and conclusions that OLEDs will replace LCDs given flexibility enabling new applications and providing an environmentally friendly display option.
AMOLED is a major advancement of OLED (Organic Light Emitting Diode) which is nothing but a very subtle way of its exposure. As its attached theme, OLED is now known from AMOLED ever since its discovery thus proving its magnificence.AMOLED has brought laurels in this present era of display technologies where sheer visual pleasure along with the synergy of Dynamic and Vibrant performance becomes the utter demand. This technology thus has fulfilled all these demands of Excellent and Crisp Color reproduction and saturation with extraordinary wider viewing angles as its colossal Objectives.
Smart textile refers to intelligent textiles that can sense and react to environmental conditions or stimuli. There are three components: sensors that detect signals, actuators that act upon signals, and controlling units that produce outputs. Smart textiles are classified based on functionality into passive (sensing only), active (sensing and reacting), and very/ultra smart (sensing, reacting, and adapting). They have a variety of end uses including comfort, heat protection, medical, military, computing, fashion, aviation, and space research. Components can be incorporated at the fiber, yarn/fabric, or finishing level. The future of smart textiles includes tera/nano scales, complexity, cognition, and replacing traditional
Free space optical communication (FSO) uses lasers and photo detectors to transmit data through the air without fiber cables. It was initially developed by NASA and the military. FSO can transmit data, voice, or video at speeds up to 1.25 Gbps using invisible beams of light in a line-of-sight system. Signal propagation is impacted by weather like fog and rain, which can cause scattering and absorption leading to power losses and interruptions. While installation has low costs compared to fiber, FSO performance depends on clear line-of-sight conditions.
The document is a seminar report on smart antenna systems submitted by Ashok Behuria in partial fulfillment of the requirements for a Bachelor of Engineering degree. It discusses different types of smart antenna systems including switched beam and adaptive array systems. The report provides an overview of smart antennas, explaining that they combine antenna arrays with signal processing to optimize radiation and reception patterns automatically based on the signal environment.
The document discusses 3D integrated circuits (ICs) as an alternative to increasing chip area in 2D ICs. It provides motivation for 3D ICs by explaining how interconnect delays are becoming the dominant factor limiting performance as technologies scale. Summarizing key points:
1. Interconnect delays are increasing faster than gate delays as technologies scale, limiting performance gains from device scaling alone.
2. 3D chip stacking can help address this by reducing wire lengths and capacitances through short vertical interconnects between layers.
3. 3D ICs also enable heterogeneous integration of different technologies like digital, analog and RF on a single chip through separate layers.
The presentation discusses the history and techniques of wireless electricity transmission. It describes Nikola Tesla's early experiments with wireless power in the 1890s using resonant inductive coupling. More recently, MIT researchers demonstrated mid-range wireless power transfer using coupled resonator theory, achieving 43% efficiency over 2 meters. Applications could include wirelessly charging electric vehicles and powering devices without batteries. Long-range microwave transmission could one day transmit solar power from satellites to Earth. While promising, wireless power faces challenges of efficiency over distance, health concerns, and high implementation costs.
The document discusses holographic projection technology. It provides an overview of holography including its history, properties, working principles, and applications. Holography allows the recording and reconstruction of 3D images using laser light. The technique was first proposed in 1948 by Dennis Gabor. Key properties of holograms are that they can display 3D images from different angles and each half of a hologram contains the full image. The document outlines current and potential future applications of holographic technology in areas like entertainment, education, communication, simulation, and the military.
The document discusses e-bombs, which are weapons designed to disable electronic systems through electromagnetic pulses. It notes that e-bombs could thrust cities back 200 years by disabling power grids, vehicles, communication systems, and more. The document outlines different coupling modes through which e-bombs could damage electronic equipment. It argues that e-bombs could effectively neutralize systems like vehicle control, targeting, navigation, and sensors. While they may cause less physical damage than conventional bombs, e-bombs could paralyze air operations and combat through disabling electronics across strategic and tactical targets.
Biochips are miniaturized laboratories that can perform hundreds or thousands of biochemical reactions simultaneously. They contain thousands of individual sensors to analyze biological samples for applications like disease diagnosis and bioterrorism detection. A typical biochip consists of a computer microchip storing a unique identification number, an antenna coil, a tuning capacitor, and a hermetically sealed glass capsule containing these components. Biochips have advantages like being extremely small, able to detect multiple agents in parallel, and increase the speed of diagnosing unknown pathogens. However, they also have limitations such as difficulties in high density fabrication and standardization challenges across devices. Biochips have applications in areas like genomics, proteomics, cellomics, and bio-diagnostics
The document discusses different types of sensors used for 3D digitization, including passive and active vision techniques. It describes synchronization circuit-based dual photocells that improve measurement stability and repeatability. Position sensitive detectors are discussed that can measure the position of a light spot in one or two dimensions on a sensor surface to acquire high-resolution 3D images. A proposed sensor architecture combines color and range sensing for applications like hand-held 3D cameras.
Apple launched the iPhone 4S in October 2011. Key features included an improved 8 megapixel camera, the powerful dual-core A5 processor, and Siri voice assistant. The iPhone 4S retailed starting at $199 for a 16GB model. Apple marketed the iPhone 4S through a variety of traditional and digital channels, targeting professionals, students, and other groups. The phone was distributed through Apple retail stores, online stores in 36 countries, and third-party retailers.
Electromagnetic pulse generator(emp bomb) raja sukumar
This document describes the design and operation of an electromagnetic pulse (EMP) generator. The EMP generator consists of two circuits - one to store energy from a wall outlet using a capacitor, and another to release this energy through a loop of wire, generating an electromagnetic pulse. The purpose of the EMP is to electrically destroy electronics through rapidly heating semiconductor materials. Safety precautions are required when working with the high voltages involved. Further research could optimize EMP effects and electronic shielding.
Foreign direct investment (FDI) is a direct investment into production or business in a country by an individual or company in another country, either by buying a company in the target country or by expanding operations of an existing business in that country.
This project report describes the development of a test jig for testing the MODE-S drawer of IFF equipment. Some key issues with current testing methods are the need to test using the full IFF system, which is time-consuming, and the lack of a standalone test solution for the MODE-S drawer. The proposed test jig includes a pulse generator circuit to generate trigger pulses, and interfaces to monitor signals and outputs from the MODE-S drawer unit. Use of the test jig is expected to reduce testing time and allow more efficient troubleshooting, resulting in estimated savings of over 300,000 rupees.
The document discusses organic light-emitting diodes (OLEDs), which are thin films of organic compounds that emit light when electric current is applied. It provides a brief history of OLED development from the 1950s and describes the basic working principle of OLEDs involving organic semiconductor layers and electrodes. The document also outlines different types of OLEDs and their applications, as well as advantages such as high contrast, flexibility, and energy efficiency compared to LCDs. Potential disadvantages discussed include higher manufacturing costs and limited lifespan.
Light emitting polymers (LEPs) emit light when an electric field is applied. LEPs consist of a thin film of polymer sandwiched between an anode and cathode. When a voltage is applied, electrons are injected from the cathode and holes from the anode, which recombine and emit light radiatively. LEPs have advantages such as low energy consumption, suitability for large area lighting, simple fabrication process, and potential for flexible displays.
Introduction to 3D Holographic TechnologyAndrew Japar
3D Holographic Technology presentation in VR Meetup V0.2.
Hologram Technology pushes your virtual expectation to break boundaries into engaging digital experience. - Andrew Japar
The document discusses biochips, which are miniaturized test sites arranged on a solid substrate that can perform thousands of biological reactions simultaneously. Biochips can be used to analyze organic molecules, identify gene sequences, and detect pollutants. The document outlines the history, components, workings, applications, advantages, and future of biochip technology.
This document provides an overview of OLED (organic light-emitting diode) technology. It discusses how OLEDs work using organic compounds to emit light, their advantages over other display technologies like thinner/lighter/more flexible designs and low power consumption. The document also covers OLED applications, challenges like short lifetimes, and conclusions that OLEDs will replace LCDs given flexibility enabling new applications and providing an environmentally friendly display option.
AMOLED is a major advancement of OLED (Organic Light Emitting Diode) which is nothing but a very subtle way of its exposure. As its attached theme, OLED is now known from AMOLED ever since its discovery thus proving its magnificence.AMOLED has brought laurels in this present era of display technologies where sheer visual pleasure along with the synergy of Dynamic and Vibrant performance becomes the utter demand. This technology thus has fulfilled all these demands of Excellent and Crisp Color reproduction and saturation with extraordinary wider viewing angles as its colossal Objectives.
Smart textile refers to intelligent textiles that can sense and react to environmental conditions or stimuli. There are three components: sensors that detect signals, actuators that act upon signals, and controlling units that produce outputs. Smart textiles are classified based on functionality into passive (sensing only), active (sensing and reacting), and very/ultra smart (sensing, reacting, and adapting). They have a variety of end uses including comfort, heat protection, medical, military, computing, fashion, aviation, and space research. Components can be incorporated at the fiber, yarn/fabric, or finishing level. The future of smart textiles includes tera/nano scales, complexity, cognition, and replacing traditional
Free space optical communication (FSO) uses lasers and photo detectors to transmit data through the air without fiber cables. It was initially developed by NASA and the military. FSO can transmit data, voice, or video at speeds up to 1.25 Gbps using invisible beams of light in a line-of-sight system. Signal propagation is impacted by weather like fog and rain, which can cause scattering and absorption leading to power losses and interruptions. While installation has low costs compared to fiber, FSO performance depends on clear line-of-sight conditions.
The document is a seminar report on smart antenna systems submitted by Ashok Behuria in partial fulfillment of the requirements for a Bachelor of Engineering degree. It discusses different types of smart antenna systems including switched beam and adaptive array systems. The report provides an overview of smart antennas, explaining that they combine antenna arrays with signal processing to optimize radiation and reception patterns automatically based on the signal environment.
The document discusses 3D integrated circuits (ICs) as an alternative to increasing chip area in 2D ICs. It provides motivation for 3D ICs by explaining how interconnect delays are becoming the dominant factor limiting performance as technologies scale. Summarizing key points:
1. Interconnect delays are increasing faster than gate delays as technologies scale, limiting performance gains from device scaling alone.
2. 3D chip stacking can help address this by reducing wire lengths and capacitances through short vertical interconnects between layers.
3. 3D ICs also enable heterogeneous integration of different technologies like digital, analog and RF on a single chip through separate layers.
The presentation discusses the history and techniques of wireless electricity transmission. It describes Nikola Tesla's early experiments with wireless power in the 1890s using resonant inductive coupling. More recently, MIT researchers demonstrated mid-range wireless power transfer using coupled resonator theory, achieving 43% efficiency over 2 meters. Applications could include wirelessly charging electric vehicles and powering devices without batteries. Long-range microwave transmission could one day transmit solar power from satellites to Earth. While promising, wireless power faces challenges of efficiency over distance, health concerns, and high implementation costs.
The document discusses holographic projection technology. It provides an overview of holography including its history, properties, working principles, and applications. Holography allows the recording and reconstruction of 3D images using laser light. The technique was first proposed in 1948 by Dennis Gabor. Key properties of holograms are that they can display 3D images from different angles and each half of a hologram contains the full image. The document outlines current and potential future applications of holographic technology in areas like entertainment, education, communication, simulation, and the military.
The document discusses e-bombs, which are weapons designed to disable electronic systems through electromagnetic pulses. It notes that e-bombs could thrust cities back 200 years by disabling power grids, vehicles, communication systems, and more. The document outlines different coupling modes through which e-bombs could damage electronic equipment. It argues that e-bombs could effectively neutralize systems like vehicle control, targeting, navigation, and sensors. While they may cause less physical damage than conventional bombs, e-bombs could paralyze air operations and combat through disabling electronics across strategic and tactical targets.
Biochips are miniaturized laboratories that can perform hundreds or thousands of biochemical reactions simultaneously. They contain thousands of individual sensors to analyze biological samples for applications like disease diagnosis and bioterrorism detection. A typical biochip consists of a computer microchip storing a unique identification number, an antenna coil, a tuning capacitor, and a hermetically sealed glass capsule containing these components. Biochips have advantages like being extremely small, able to detect multiple agents in parallel, and increase the speed of diagnosing unknown pathogens. However, they also have limitations such as difficulties in high density fabrication and standardization challenges across devices. Biochips have applications in areas like genomics, proteomics, cellomics, and bio-diagnostics
The document discusses different types of sensors used for 3D digitization, including passive and active vision techniques. It describes synchronization circuit-based dual photocells that improve measurement stability and repeatability. Position sensitive detectors are discussed that can measure the position of a light spot in one or two dimensions on a sensor surface to acquire high-resolution 3D images. A proposed sensor architecture combines color and range sensing for applications like hand-held 3D cameras.