Wireless Charging Innovation - Pitch Deck by Ishit Mehta
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This a pitch deck on wireless charging, it is a new innovative concept which can transform the way we charge our devices.
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Wireless power transmission
The document discusses wireless power transmission, which involves transmitting energy from one place to another without wires using techniques like inductive coupling and microwave power transmission. It provides an introduction and history of wireless power transmission, describes different approaches and technologies used, and discusses applications and implementations of the technology including wireless charging standards and recent research projects. The key benefit of wireless power transmission is that it allows electrical devices to be charged continuously without needing physical connections via wires.
WIRELESS ENERGY TRANSMISSION
A lot of power is wasted due to wired mechanism which could be solved by wireless energy transmission throughout the world.
The advantages and some disadvantages are mentioned in the presentation.
Light Fedility PPT
Li-Fi is a visible light communication technology that uses light from LED bulbs to transmit data wirelessly. It was developed by Professor Harald Haas and his team at the University of Edinburgh. Li-Fi uses photo detectors and LED bulbs that can be switched on and off faster than the human eye can detect to transmit data. It provides wireless connections up to 10 times faster than Wi-Fi and has advantages like no interference from radio waves, higher security since light cannot pass through walls, and potential use in environments where Wi-Fi is restricted. Some applications of Li-Fi include use in traffic lights, hospitals, airplanes, and underwater communications.
wireless electricity
This document summarizes wireless electricity and power transfer techniques. It discusses Nikola Tesla's early work transmitting power wirelessly and defines different wireless power transfer methods like inductive coupling and resonant inductive coupling. Inductive coupling uses electromagnetic induction to transfer power between devices in close proximity like wireless charging pads. Resonant inductive coupling combines induction with resonance to transfer power over greater mid-range distances. The document also describes transferring power over long distances using microwave transmission and proposes collecting solar power in space and transmitting it to receivers on the ground. While wireless power has advantages like efficiency and flexibility, its disadvantages include higher setup costs and potential interference issues depending on the transmission method used.
Deck switch
This document discusses a startup called Switch that aims to connect appliances to the internet through an end-to-end connectivity solution including communication hardware, cloud intelligence, and an app platform. Their solution allows appliance manufacturers to make their products "smart" and gives users an adaptive interface to interact with multiple appliances. They have already prototyped smart plugs, AC units, switchboards, and LEDs. Their target market is appliance manufacturers in India and Asia Pacific with annual sales in the billions. Their competitive advantage is providing an end-to-end platform across hardware, cloud and app to increase user stickiness over developer-focused competitors like Google.
Wireless power technology way to wireless world
Wireless power technology allows for the transmission of electrical energy without wires. It is useful when wires are inconvenient or impossible. Wireless power standards like Qi are being developed to enable charging of devices up to a meter away and over 60 watts for applications like laptops. Many companies are working to integrate wireless charging into consumer electronics and vehicles to provide a more convenient charging experience without connectors. The wireless power market is forecast to grow significantly as the technology is adopted into more devices and locations over the next decade.
A project report on wireless energy meter reading using x bee
Robo India presents A project report on Wireless Energy Meter Reading using X-Bee.
By this project we can see the readings of energy meter from a remote location using X-Bee. This project contains two parts. One is transmitter that is attached with the energy meter and second in Receiver. The transmitter reads the reading of energy meter and transmits them, on the other hand the receiver receives those reading and displays them on the LCD.
The project is made using AVR atmel Atmega 16 microcontroller. The project report also contains full programming and codding in the last.
we welcome your views and queries, we are found at-
website: www.roboindia.com
mail- info@roboindia.com
Li-Fi Technology Presentation
Li-Fi is a wireless optical networking technology that uses light-emitting diodes (LEDs) for data transmission. It provides higher bandwidth, density, safety and security compared to traditional Wi-Fi. Li-Fi works by transmitting data via visible light communication (VLC) through the modulation of LED light intensity at a rate that is undetectable to the human eye. Some key advantages of Li-Fi include high speed data transmission, energy efficiency, low implementation costs, and increased security since light cannot pass through walls. Potential applications of Li-Fi technology include underwater communication, traffic management systems, indoor navigation for the blind, and communication in hazardous environments where Wi-Fi is restricted.
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Wireless power transmission
The document discusses wireless power transmission, which involves transmitting energy from one place to another without wires using techniques like inductive coupling and microwave power transmission. It provides an introduction and history of wireless power transmission, describes different approaches and technologies used, and discusses applications and implementations of the technology including wireless charging standards and recent research projects. The key benefit of wireless power transmission is that it allows electrical devices to be charged continuously without needing physical connections via wires.
WIRELESS ENERGY TRANSMISSION
A lot of power is wasted due to wired mechanism which could be solved by wireless energy transmission throughout the world.
The advantages and some disadvantages are mentioned in the presentation.
Light Fedility PPT
Li-Fi is a visible light communication technology that uses light from LED bulbs to transmit data wirelessly. It was developed by Professor Harald Haas and his team at the University of Edinburgh. Li-Fi uses photo detectors and LED bulbs that can be switched on and off faster than the human eye can detect to transmit data. It provides wireless connections up to 10 times faster than Wi-Fi and has advantages like no interference from radio waves, higher security since light cannot pass through walls, and potential use in environments where Wi-Fi is restricted. Some applications of Li-Fi include use in traffic lights, hospitals, airplanes, and underwater communications.
wireless electricity
This document summarizes wireless electricity and power transfer techniques. It discusses Nikola Tesla's early work transmitting power wirelessly and defines different wireless power transfer methods like inductive coupling and resonant inductive coupling. Inductive coupling uses electromagnetic induction to transfer power between devices in close proximity like wireless charging pads. Resonant inductive coupling combines induction with resonance to transfer power over greater mid-range distances. The document also describes transferring power over long distances using microwave transmission and proposes collecting solar power in space and transmitting it to receivers on the ground. While wireless power has advantages like efficiency and flexibility, its disadvantages include higher setup costs and potential interference issues depending on the transmission method used.
Deck switch
This document discusses a startup called Switch that aims to connect appliances to the internet through an end-to-end connectivity solution including communication hardware, cloud intelligence, and an app platform. Their solution allows appliance manufacturers to make their products "smart" and gives users an adaptive interface to interact with multiple appliances. They have already prototyped smart plugs, AC units, switchboards, and LEDs. Their target market is appliance manufacturers in India and Asia Pacific with annual sales in the billions. Their competitive advantage is providing an end-to-end platform across hardware, cloud and app to increase user stickiness over developer-focused competitors like Google.
Wireless power technology way to wireless world
Wireless power technology allows for the transmission of electrical energy without wires. It is useful when wires are inconvenient or impossible. Wireless power standards like Qi are being developed to enable charging of devices up to a meter away and over 60 watts for applications like laptops. Many companies are working to integrate wireless charging into consumer electronics and vehicles to provide a more convenient charging experience without connectors. The wireless power market is forecast to grow significantly as the technology is adopted into more devices and locations over the next decade.
A project report on wireless energy meter reading using x bee
Robo India presents A project report on Wireless Energy Meter Reading using X-Bee.
By this project we can see the readings of energy meter from a remote location using X-Bee. This project contains two parts. One is transmitter that is attached with the energy meter and second in Receiver. The transmitter reads the reading of energy meter and transmits them, on the other hand the receiver receives those reading and displays them on the LCD.
The project is made using AVR atmel Atmega 16 microcontroller. The project report also contains full programming and codding in the last.
we welcome your views and queries, we are found at-
website: www.roboindia.com
mail- info@roboindia.com
Li-Fi Technology Presentation
Li-Fi is a wireless optical networking technology that uses light-emitting diodes (LEDs) for data transmission. It provides higher bandwidth, density, safety and security compared to traditional Wi-Fi. Li-Fi works by transmitting data via visible light communication (VLC) through the modulation of LED light intensity at a rate that is undetectable to the human eye. Some key advantages of Li-Fi include high speed data transmission, energy efficiency, low implementation costs, and increased security since light cannot pass through walls. Potential applications of Li-Fi technology include underwater communication, traffic management systems, indoor navigation for the blind, and communication in hazardous environments where Wi-Fi is restricted.
Wireless transmission of power
This document summarizes Hatem Zeine's invention of wireless power transmission called COTA. Zeine worked on prototype development for a decade and was granted the first patent in 2007. COTA uses electromagnetic resonance to transmit electric power without wires up to a 30 foot range. It has applications for replacing wired power connections and is safe, automatic and eco-friendly. However, wireless transmission results in some signal loss and limited range.
Lifi report
1) Li-Fi is a wireless optical networking technology that uses light-emitting diodes (LEDs) for data transmission. It can provide higher speeds than Wi-Fi and does not cause any radio interference.
2) Li-Fi works by varying the intensity of light from an LED to transmit data. An LED bulb acts as a transmitter and a photo-sensitive detector acts as a receiver. Data is encoded by switching the LED bulb on and off at extremely high speeds undetectable to the human eye.
3) Potential applications of Li-Fi include use in places where Wi-Fi is restricted like hospitals and aircraft, as well as enabling faster internet access in public places using street lights outfitted
PROJECTS FROM SHPINE TECHNOLOGIES
- Embedded systems are specialized computer systems that are part of larger machines and devices to control them. They are commonly microcontroller-based boards integrated with the device's development. Examples include appliances, watches, vehicles.
- The document discusses various electrical, biomedical, VLSI, networking, web application, wireless, Android, .NET, and robotics engineering projects for students. It provides examples of projects involving power factor correction, high voltage conversion, motor control, medical devices, microchip design, network simulation, and autonomous robots.
- The goal is to provide real-world engineering project ideas across different domains to help students with their academic work and gain industry-relevant skills.
Introduction to IDT Wireless Power IC Solutions (Inductive Charging)
Introduction to inductive wireless power and IDT's new best-in-class wireless power transmitter and receiver IC solutions designed for Wireless Power Consortium (WPC) Qi compliance. IDT's ICs facilitate inductive charging between charging station (power mat) and mobile battery (smartphone). Covered topics include technology overview, potential applications, and an overview of IDT's offerings and comparisons to other competitive offerings. Presented by Eric Itakura, Product Marketing Director, Integrated Device Technology, Inc. Learn more at http://www.idt.com/go/wirelesspower
Wireless charging for mobile phones
Wireless charging allows devices to charge without cables or adapters by using electromagnetic fields to transmit power over short air gaps. There are three main types of wireless charging: resonant charging for large devices, inductive charging for mid-sized devices, and radio charging for small devices. Wireless charging works through a transmitter that generates an alternating electromagnetic field, an antenna that transmits the field, and a receiver with a pickup coil that converts the received energy to direct current to charge a battery. Wireless charging provides convenience by eliminating cables but has lower efficiency and higher costs than wired charging.
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HOME APPLIANCES CONTROL USING LIFI
In modern days, we must use various high-tech machineries and equipments to get our jobs done and make the life easier. the Home Automation systems has seen a rapid changes due to introduction of various wireless technologies The explosion in the wireless technology has seen the emergence of many standards. This paper mainly focuses on the controlling of home appliances remotely and providing security when the user is from the place. These machineries should be controlled by the homeowner from in a location as the homeowner might be away from home at workplace in a different place.
Ls subramanian internet of things
Gartner predicts that 26 billion IoT units will be deployed by 2020, generating over $300 billion in revenue. IoT poses various challenges, including a lack of out-of-box solutions, technical difficulties, and the need for cross-functional expertise. IoT also generates large amounts of raw data, requiring strategies for storage, analytics, and transforming organizations to be data-driven. Potential applications of IoT discussed in the document include agriculture, utilities, municipalities, law enforcement, healthcare, and beacon technology for proximity messaging.
SAIC, HP, GE and Others. Wireless Sensors Network Case.
SAIC is a major defense contractor involved in military, intelligence, and homeland security. HP is the largest technology company and manufactures computing and printing hardware. GE was founded by Thomas Edison and is involved in energy, aviation, and healthcare. Wireless sensor networks use small sensor devices that detect environmental data and transmit it through multi-hop mesh networks to be analyzed. SAIC, HP, and GE are experimenting with using wireless sensors for border security, warehouse inventory tracking, and shipping container monitoring. The wireless sensor market is expected to grow significantly in coming years.
Saic, hp, ge and others prepared by faizan maju
SAIC is a major defense contractor involved in military, intelligence, and homeland security. HP is the largest technology company and manufactures computing and printing hardware. GE was founded by Thomas Edison and is involved in energy, aviation, and healthcare. Wireless sensor networks use small sensor devices that detect environmental changes and transmit data via mesh networks to be analyzed. SAIC, HP, and GE are experimenting with using wireless sensors for border security, warehouse inventory tracking, and shipping container monitoring. The wireless sensor market is expected to grow significantly in coming years.
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- Visions: Smart World, Smart City, Smart Grid
- Market Research & Market Growth
- Smart Home Technologies: InsteOn, Z-Wave, ZigBee, QiviCon, X10, UPB, WIFI, Bluetooth
- Solution Provider: Crestron, InsteOn, Leviton, RWE, HomeMatic, Bitron, Vera, T-Mobile, Samsung, Loxone
- Platforms: ThingWorkx, MiOS, Loxone
- Apps: T-Mobile, uControl, inControl, zHouse, HomeBuddy, Belkin WeMo, Nest, Tado, Bitron B-Connect, Rocket Home, Smart Things, AlertMe, Loxone
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This document provides an overview of Amanjyot S. Johar's background and experience in technology investing and advising startups. It then discusses the growth of connected devices, opportunities in various sectors like smart homes and healthcare, and key enabling technologies for the Internet of Things like connectivity standards, hardware, sensors, data analytics and security.Investordagen høsten 2014 - Nordic Semiconductor Company overview
Presentasjon holdt av Svein-Egil Nielsen hos Nordic Semiconductor på Investordagen høsten 2014 i Trondheim 4. september.
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This document discusses the potential for mobile phones to become health hubs using Bluetooth Low Energy technology. It describes the Continua Health Alliance, which has selected Bluetooth as the standard for connecting medical devices. Bluetooth Low Energy allows devices like weight scales to advertise their services to mobile phones, which can then select apps to access the device's data and integrate it with health services. This creates opportunities for accessory makers, app developers, mobile carriers and others. CSR provides Bluetooth Low Energy silicon and software to enable these connections between accessories and mobile phones. Open standards, apps and certification are still needed to fully realize this vision of mobile health.
Catching the Internet of Things (IoT) Wave
The document discusses various topics related to Internet of Things (IoT) systems, including definitions of IoT, the types of connected devices, connectivity options, and software and hardware considerations for IoT devices. It provides examples of memory requirements and processor selections for IoT applications. Key networking technologies like TCP/IP, WiFi, Bluetooth, and different software architectures for IoT devices are also examined.
Abdulrahman AlzaidCell 424-230-4189[email protected]OBJ.docx
Abdulrahman Alzaid
Cell: 424-230-4189
[email protected]
OBJECTIVE: To use my knowledge in computer skills and software programming to improve efficiency and hence maximize productivity.
EDUCATION
Loyola Marymount university- Los Angeles- CA
Current
Bachelor of Arts, computer science
· Recipient of Saudi Cultural Mission Scholarship
· Coursework in Web Design And Development
· Coursework in Computer Science And Information Technology
· Coursework in Business, Management And Marketing
Certifications
· Udemy Completion of the Swift - Apple's new programming language, 2014.
· Coursera (University of Maryland) Completion with Distinction of Developing Innovative Ideas for new Companies: The First Step in Entrepreneurship 2014.
WORK EXPERIENCE
Web Developer
05/2014- 10/2014
ELM– Saudi Arabia
· Coded three websites using JavaScript, HTML, and CSS.
· Strengthened developmental methodologies by introducing a code quality document.
· Wrote on Xcode for iOS development using Swift.
· Worked effectively with design teams to ensure software solutions elevated client side experience.
· Consulted with engineering staff to evaluate interface between hardware and software.
· Interfaced with business analysts, developers and technical support to determine the best requirement specifications
COMPUTER SKILLS
· Advanced knowledge of JavaScript, Java, HTML, and CSS
· Moderate knowledge of C, Swift, Python, C++, and GO
· Front-end web development
· Mobile development
· Knowledge in AngularJS, Backbone, and MarioneĴeJS
· Troubleshooting and debugging
· Agile
· Git
OTHER CAPABILITIES
· Fast learner
· Group work
12 INTECH MARCH/APRIL 2014 WWW.ISA.ORG
Industrial automation industry exploring and
implementing IoT
By Bill Lydon
T
he idea of the Internet of Things (IoT)
has been creating a great deal of ex-
citement in the computing and com-
munications industry for some time.
Currently, the industrial automation
industry is starting to explore and
implement IoT concepts and technology. Other
terms related to these concepts are machine to
machine (M2M), Internet of Everything, Inter-
net of Things, and IP (Internet protocol) to the
Edge. Kevin Ashton, a British technology pio-
neer, is generally attributed with inventing the
term “the Internet of Things” in 1999; although
the concept has been discussed in literature
since at least 1991 (www.en.wikipedia.org/
wiki/Kevin_Ashton). Commercially, in 2008
IBM launched its Smart Planet initiative. The
same year, the nonproft IP for Smart Objects
(IPSO) Alliance was started with more than 50
members from technology, communications,
and energy companies to promote the IP for
“smart object” communications.
The IoT vision is of a massively instrumented
world of intelligent sensors (analog and digi-
tal) and actuators (analog and digital) com-
municating using IP to improve performance
and effciency. Internet protocol is the primary
pr.
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Wilson Electronics designs and manufactures wireless communication technologies like antennas and amplifiers that improve cellular performance. Their bi-directional amplifiers deliver higher power and sensitivity than competitors. Wilson holds several patents including reliable oscillation prevention methods. Their U.S.-based manufacturing allows them to maintain high quality standards through extensive testing.
Full-RAG: A modern architecture for hyper-personalization
Mike Del Balso, CEO & Co-Founder at Tecton, presents "Full RAG," a novel approach to AI recommendation systems, aiming to push beyond the limitations of traditional models through a deep integration of contextual insights and real-time data, leveraging the Retrieval-Augmented Generation architecture. This talk will outline Full RAG's potential to significantly enhance personalization, address engineering challenges such as data management and model training, and introduce data enrichment with reranking as a key solution. Attendees will gain crucial insights into the importance of hyperpersonalization in AI, the capabilities of Full RAG for advanced personalization, and strategies for managing complex data integrations for deploying cutting-edge AI solutions.
Observability Concepts EVERY Developer Should Know -- DeveloperWeek Europe.pdf
Monitoring and observability aren’t traditionally found in software curriculums and many of us cobble this knowledge together from whatever vendor or ecosystem we were first introduced to and whatever is a part of your current company’s observability stack.
While the dev and ops silo continues to crumble….many organizations still relegate monitoring & observability as the purview of ops, infra and SRE teams. This is a mistake - achieving a highly observable system requires collaboration up and down the stack.
I, a former op, would like to extend an invitation to all application developers to join the observability party will share these foundational concepts to build on:
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This document summarizes Hatem Zeine's invention of wireless power transmission called COTA. Zeine worked on prototype development for a decade and was granted the first patent in 2007. COTA uses electromagnetic resonance to transmit electric power without wires up to a 30 foot range. It has applications for replacing wired power connections and is safe, automatic and eco-friendly. However, wireless transmission results in some signal loss and limited range.
Lifi report
1) Li-Fi is a wireless optical networking technology that uses light-emitting diodes (LEDs) for data transmission. It can provide higher speeds than Wi-Fi and does not cause any radio interference.
2) Li-Fi works by varying the intensity of light from an LED to transmit data. An LED bulb acts as a transmitter and a photo-sensitive detector acts as a receiver. Data is encoded by switching the LED bulb on and off at extremely high speeds undetectable to the human eye.
3) Potential applications of Li-Fi include use in places where Wi-Fi is restricted like hospitals and aircraft, as well as enabling faster internet access in public places using street lights outfitted
PROJECTS FROM SHPINE TECHNOLOGIES
- Embedded systems are specialized computer systems that are part of larger machines and devices to control them. They are commonly microcontroller-based boards integrated with the device's development. Examples include appliances, watches, vehicles.
- The document discusses various electrical, biomedical, VLSI, networking, web application, wireless, Android, .NET, and robotics engineering projects for students. It provides examples of projects involving power factor correction, high voltage conversion, motor control, medical devices, microchip design, network simulation, and autonomous robots.
- The goal is to provide real-world engineering project ideas across different domains to help students with their academic work and gain industry-relevant skills.
Introduction to IDT Wireless Power IC Solutions (Inductive Charging)
Introduction to inductive wireless power and IDT's new best-in-class wireless power transmitter and receiver IC solutions designed for Wireless Power Consortium (WPC) Qi compliance. IDT's ICs facilitate inductive charging between charging station (power mat) and mobile battery (smartphone). Covered topics include technology overview, potential applications, and an overview of IDT's offerings and comparisons to other competitive offerings. Presented by Eric Itakura, Product Marketing Director, Integrated Device Technology, Inc. Learn more at http://www.idt.com/go/wirelesspower
Wireless charging for mobile phones
Wireless charging allows devices to charge without cables or adapters by using electromagnetic fields to transmit power over short air gaps. There are three main types of wireless charging: resonant charging for large devices, inductive charging for mid-sized devices, and radio charging for small devices. Wireless charging works through a transmitter that generates an alternating electromagnetic field, an antenna that transmits the field, and a receiver with a pickup coil that converts the received energy to direct current to charge a battery. Wireless charging provides convenience by eliminating cables but has lower efficiency and higher costs than wired charging.
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Digital Media and Consumer Electronics TrendspottingUCSD Cntr For Astrophysics & Space Science; The Clarke Cntr For Human Imagination
Slides illustrating my lecture on digital media and consumer electronics trends. Most photos were from CES and NAB 2013.2. Products to power your Iot STMicroelectronics
The document discusses STMicroelectronics' products and solutions for powering the Internet of Things (IoT). It describes how existing devices are being augmented with sensors, connectivity and intelligence. ST provides key technologies like MEMS sensors, microcontrollers, memories and connectivity solutions that enable devices in applications like smart homes, cities, cars and wearables. The IoT market is expected to grow significantly over the coming years, and ST is well positioned with its portfolio of solutions.
HOME APPLIANCES CONTROL USING LIFI
In modern days, we must use various high-tech machineries and equipments to get our jobs done and make the life easier. the Home Automation systems has seen a rapid changes due to introduction of various wireless technologies The explosion in the wireless technology has seen the emergence of many standards. This paper mainly focuses on the controlling of home appliances remotely and providing security when the user is from the place. These machineries should be controlled by the homeowner from in a location as the homeowner might be away from home at workplace in a different place.
Ls subramanian internet of things
Gartner predicts that 26 billion IoT units will be deployed by 2020, generating over $300 billion in revenue. IoT poses various challenges, including a lack of out-of-box solutions, technical difficulties, and the need for cross-functional expertise. IoT also generates large amounts of raw data, requiring strategies for storage, analytics, and transforming organizations to be data-driven. Potential applications of IoT discussed in the document include agriculture, utilities, municipalities, law enforcement, healthcare, and beacon technology for proximity messaging.
SAIC, HP, GE and Others. Wireless Sensors Network Case.
SAIC is a major defense contractor involved in military, intelligence, and homeland security. HP is the largest technology company and manufactures computing and printing hardware. GE was founded by Thomas Edison and is involved in energy, aviation, and healthcare. Wireless sensor networks use small sensor devices that detect environmental data and transmit it through multi-hop mesh networks to be analyzed. SAIC, HP, and GE are experimenting with using wireless sensors for border security, warehouse inventory tracking, and shipping container monitoring. The wireless sensor market is expected to grow significantly in coming years.
Saic, hp, ge and others prepared by faizan maju
SAIC is a major defense contractor involved in military, intelligence, and homeland security. HP is the largest technology company and manufactures computing and printing hardware. GE was founded by Thomas Edison and is involved in energy, aviation, and healthcare. Wireless sensor networks use small sensor devices that detect environmental changes and transmit data via mesh networks to be analyzed. SAIC, HP, and GE are experimenting with using wireless sensors for border security, warehouse inventory tracking, and shipping container monitoring. The wireless sensor market is expected to grow significantly in coming years.
Karsten Held: Internet Of Things (IOT), SmartBuilding & SmartHome Research (J...
- Visions: Smart World, Smart City, Smart Grid
- Market Research & Market Growth
- Smart Home Technologies: InsteOn, Z-Wave, ZigBee, QiviCon, X10, UPB, WIFI, Bluetooth
- Solution Provider: Crestron, InsteOn, Leviton, RWE, HomeMatic, Bitron, Vera, T-Mobile, Samsung, Loxone
- Platforms: ThingWorkx, MiOS, Loxone
- Apps: T-Mobile, uControl, inControl, zHouse, HomeBuddy, Belkin WeMo, Nest, Tado, Bitron B-Connect, Rocket Home, Smart Things, AlertMe, Loxone
MA2017 | Amanjyot Johar | Identifying Opportunities and Value in IoT Plays
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This document provides an overview of Amanjyot S. Johar's background and experience in technology investing and advising startups. It then discusses the growth of connected devices, opportunities in various sectors like smart homes and healthcare, and key enabling technologies for the Internet of Things like connectivity standards, hardware, sensors, data analytics and security.Investordagen høsten 2014 - Nordic Semiconductor Company overview
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The mobile as a health hub, and how bluetooth low energy enables the market
This document discusses the potential for mobile phones to become health hubs using Bluetooth Low Energy technology. It describes the Continua Health Alliance, which has selected Bluetooth as the standard for connecting medical devices. Bluetooth Low Energy allows devices like weight scales to advertise their services to mobile phones, which can then select apps to access the device's data and integrate it with health services. This creates opportunities for accessory makers, app developers, mobile carriers and others. CSR provides Bluetooth Low Energy silicon and software to enable these connections between accessories and mobile phones. Open standards, apps and certification are still needed to fully realize this vision of mobile health.
Catching the Internet of Things (IoT) Wave
The document discusses various topics related to Internet of Things (IoT) systems, including definitions of IoT, the types of connected devices, connectivity options, and software and hardware considerations for IoT devices. It provides examples of memory requirements and processor selections for IoT applications. Key networking technologies like TCP/IP, WiFi, Bluetooth, and different software architectures for IoT devices are also examined.
Abdulrahman AlzaidCell 424-230-4189[email protected]OBJ.docx
Abdulrahman Alzaid
Cell: 424-230-4189
[email protected]
OBJECTIVE: To use my knowledge in computer skills and software programming to improve efficiency and hence maximize productivity.
EDUCATION
Loyola Marymount university- Los Angeles- CA
Current
Bachelor of Arts, computer science
· Recipient of Saudi Cultural Mission Scholarship
· Coursework in Web Design And Development
· Coursework in Computer Science And Information Technology
· Coursework in Business, Management And Marketing
Certifications
· Udemy Completion of the Swift - Apple's new programming language, 2014.
· Coursera (University of Maryland) Completion with Distinction of Developing Innovative Ideas for new Companies: The First Step in Entrepreneurship 2014.
WORK EXPERIENCE
Web Developer
05/2014- 10/2014
ELM– Saudi Arabia
· Coded three websites using JavaScript, HTML, and CSS.
· Strengthened developmental methodologies by introducing a code quality document.
· Wrote on Xcode for iOS development using Swift.
· Worked effectively with design teams to ensure software solutions elevated client side experience.
· Consulted with engineering staff to evaluate interface between hardware and software.
· Interfaced with business analysts, developers and technical support to determine the best requirement specifications
COMPUTER SKILLS
· Advanced knowledge of JavaScript, Java, HTML, and CSS
· Moderate knowledge of C, Swift, Python, C++, and GO
· Front-end web development
· Mobile development
· Knowledge in AngularJS, Backbone, and MarioneĴeJS
· Troubleshooting and debugging
· Agile
· Git
OTHER CAPABILITIES
· Fast learner
· Group work
12 INTECH MARCH/APRIL 2014 WWW.ISA.ORG
Industrial automation industry exploring and
implementing IoT
By Bill Lydon
T
he idea of the Internet of Things (IoT)
has been creating a great deal of ex-
citement in the computing and com-
munications industry for some time.
Currently, the industrial automation
industry is starting to explore and
implement IoT concepts and technology. Other
terms related to these concepts are machine to
machine (M2M), Internet of Everything, Inter-
net of Things, and IP (Internet protocol) to the
Edge. Kevin Ashton, a British technology pio-
neer, is generally attributed with inventing the
term “the Internet of Things” in 1999; although
the concept has been discussed in literature
since at least 1991 (www.en.wikipedia.org/
wiki/Kevin_Ashton). Commercially, in 2008
IBM launched its Smart Planet initiative. The
same year, the nonproft IP for Smart Objects
(IPSO) Alliance was started with more than 50
members from technology, communications,
and energy companies to promote the IP for
“smart object” communications.
The IoT vision is of a massively instrumented
world of intelligent sensors (analog and digi-
tal) and actuators (analog and digital) com-
municating using IP to improve performance
and effciency. Internet protocol is the primary
pr.
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- 2. In the world of IOT / Industrial 4.0, Everything is converting into wireless, every device works on electricity / Power How about transmitting power wirelessly? Industrial 4.0
- 3. We think about charging Pad, charging covers, multiple device charging simultaneously. How wireless charging will work? How wireless charging will work ?
- 4. Future Wireless Charging Portable receives can be implanted with devices which receives Power.Invisible Beam Transmitter send signal
- 5. “Power the world wirelessly.” “We reinvent power transmission and energy.” Vision Mission
- 6. Benefits of Wireless Charging Wireless Power at long distance 300 Square feet coverage 99% efficiency and energy saving Support Multiple Device simultaneously. Scalable – ability to increase range and coverage. Safe – No harm to other device or humans.
- 7. Market size Global wireless charging Market Size 1.5 24.05 2016 2023 Market Size Billion USD
- 8. Competition uBeam: RF (Radio Frequency based power transmission) uBeam is a U.S. company that is developing a wireless charging system that is designed to work via ultrasound. Energous: RF (Radio Frequency based power transmission) Energous has a solution for wirelessly charging wearables. Its chip will fit with other device. It is US-Based organization. Wi- Charge: IR (Infrared based power transmission) Wi-Charge is an Israeli company developing technology and products for far-field wireless power transfer using focused infrared beams.
- 10. Specification: No of Receiver 4-7 Receiver Total Power Delivered 5 W (On one reflection point) Area Covered 100 Degree | 300 Sq. Ft. Distance 4.5-5 m (15ft-16ft) Device Size 250 X 250 X 50 mm Application Webcams, Remotes, Mobile charging, Bluetooth speaker, Wearables, wireless audio, dongles, Sensors, IOT gateway. PowerSpot Transmitter
- 11. Specification: Receiver Powerspot Portable Total Power Capacity 3.5-5 W Receiving signal 40-90 Degree Distance 4.5-5 m (15ft-16ft) Device Size 70 X 22 X 10 mm Receiver mounting Webcams, Remotes, Mobile charging, Bluetooth speaker, Wearables, wireless audio, dongles, IOT gateway, sensors. PowerSpot Receiver Powerspot Charging receiver
- 12. Team Ishit Mehta – Co Founder Computer Engineer with experience of 5 years. Ishit is acting as a bridge between the technology and the customer demands. Majorly involved with Business development, Client service. Ishit runs an organization with a small team into ERP solutions. Binit Mistry – Co Founder Electronics Engineer with experience of 10 Years. Binit is involved into various R & D projects as well as a core electronics expert. Binit takes electronics challenges and make them happen, he is involved into various product development. Bharat Patel – Mentor Working at ISRO for power electrical and thermal. Bharat has interest in innovation & invention, Experimenting electronics since past 25 years, He has detailed knowledge of batteries as well as power distribution.
- 13. Use of fund Product Design Research & Development Manufacturing & Tie-up Ask – 60 Lac
- 14. Thank You! ishit@arpanetsolutions.com hello@arpanetsolutions.com +91-9601087225 +91-9106113259 C-335, Siddhivinayak Tower, Makarba, Ahmedabad, Gujarat, IN. Thank You