The document describes 5 Pen PC technology, which allows for a computing environment using 5 pen-sized devices: a CPU pen, digital camera, virtual keyboard, communication pen, and LED projector. These devices connect wirelessly via Bluetooth to function as a full computer. The technology was developed by NEC in 2003 to enable portable ubiquitous computing. It aims to allow users to access office functionality and project a screen anywhere through the small, pen-sized devices.
The 5 Pen PC technology allows 5 pens to function as the core components of a portable computer. Each pen serves a distinct purpose: the CPU pen functions as the computer's processor, the camera pen contains an integrated digital camera, the visual keyboard pen projects a keyboard interface, the display pen works as an LED projector, and the communication pen enables cellular connectivity. Together, these 5 pens integrate the main functions of a CPU, camera, keyboard, display, and phone into a wireless, portable computer system that is lightweight, compact, and has a battery life of up to 2 weeks.
This document discusses the P-ISM, a pen-style personal networking gadget created in 2003 by Japanese company NCE. It describes the history and features of the P-ISM, which allows connection of different pen-shaped computers using wireless technology. The pens have functions like CPU, camera, keyboard, and communication. They are powered by batteries that can last up to two weeks. The document outlines the merits of portability and wireless features, as well as challenges around cost and unclear positioning. It concludes that this was an early example of increasingly small communication devices.
This document summarizes a seminar presentation on the 5 Pen PC technology. The 5 Pen PC package includes pens for CPU functions, camera, virtual keyboard, projection, and communication. Each pen has a specific function like computing, wireless connectivity, input, display, or imaging. The technology is based on electronic perception that allows objects to be sensed. Some advantages are portability, feasibility, and WiFi connectivity. Disadvantages include needing precise positioning and high cost. The conclusion is that this represents new compact communication devices, and more developments in this area can be expected.
This technology is not in the market. It is expected that 2020 onwards it will be available in market. To know more about P-ISM please go through the last two links provided in the slide end. There are details of other ISM devices also.
This document describes the E-Ball, a spherical computer created by Apostol Tnokopvski that is the smallest PC design. It has a diameter of only 6 inches and contains components like a dual core processor, 2GB of RAM, 350-500GB hard drive, integrated graphics and sound card, wireless optical mouse, LCD projector, and paper holder. It projects a holographic keyboard and works without walls by using the paper holder as a screen. Some advantages are its portability, large memory, and ability to make presentations, while disadvantages include incompatibility with normal OS's and high cost.
P-ISM is a package of 5 pens that combine to provide computing functionality through wireless connectivity. The pens include a CPU pen, communication pen, virtual keyboard, projector pen, and camera pen. Developed in 2003 by NEC, P-ISM allows users to access the internet, type, project displays, and record video through the various pen functions working together as a portable computing device. While innovative, P-ISM requires precise positioning of the pens and is an expensive technology.
This document presents information on 5 Pen PC technology. It begins with discussing the 5 generations of computers from the first generation using vacuum tubes to the current fourth generation using microprocessors. It then provides a history of the 5 Pen PC, which was created in 2012 as a portable computing device that projects a keyboard and monitor using pens. The working principle and main components of the 5 Pen PC like the CPU pen, communication pen, projector, virtual keyboard and camera are explained. Advantages include portability while disadvantages include cost and battery life. Potential applications are also discussed.
The 5-Pen Pc is a collection of 5 pen-sized devices that work together as a portable computer. The pens include a CPU pen, camera pen, projector pen, communication pen, and virtual keyboard pen. When connected wirelessly, the pens allow for computing, communication, display projection, photography, and input anywhere. First developed in 2003, the 5-Pen Pc concept demonstrated a vision of ubiquitous computing with small, portable devices but faced challenges in cost, battery life, and fully realizing some of the pen technologies.
P-ISM was first featured at the 2003 ITU Telecom world held in Geneva, Switzerland
The P-ISM system was based on "low-cost electronic perception technology" produced by the San Jose, California, firm of Canesta
The document discusses the 5 Pen PC technology developed by NEC Corporation. It consists of 5 pen-style components: a CPU pen, communication pen with cellular connectivity, virtual keyboard projector, LED projector, and digital camera. These pens connect wirelessly using Bluetooth and work together to provide computing and communication capabilities. The technology aims to enable ubiquitous computing through minimal and portable pen-sized devices. A conceptual prototype was developed in 2003, but the technology has yet to be commercialized for consumer use. The document provides details on each component and their working, along with the history and objectives of the 5 Pen PC concept.
A virtual keyboard is a computer input device that projects an image of a keyboard onto a surface. When the user touches a key, it records the keystroke. An optical virtual keyboard was invented by IBM in 1992 using optical detection of finger motions. Virtual keyboards take up less space than physical keyboards and can be used with smartphones, PDAs, and laptops. It works by projecting a keyboard template using lasers, illuminating the surface with infrared light, and using sensors to detect finger interactions.
This document summarizes a pen pc technology called P-ISM. P-ISM includes 5 functions: a CPU pen, camera, virtual keyboard, visual output via an LED projector, and cellular calling capability. It uses Bluetooth and WiFi for wireless connectivity and allows the user to access computing functions by writing on any flat surface and using a projected virtual keyboard. While portable and convenient, challenges include cost, battery life, and precise keyboard positioning.
The document discusses the E-Ball, a spherical computer designed by Apostol Tnokopvski. The E-Ball is the smallest computer design at 160mm in diameter and runs on the Windows OS. It contains features like a mouse, DVD drive, large screen display, motherboard, hard drive, webcam, and more. It is designed to be placed on two stands and opened by pressing two buttons simultaneously. The E-Ball has a 350-600GB hard drive, 5GB RAM, dual core processor, integrated graphics and sound, and projects a virtual keyboard onto any flat surface. While portable and powerful, E-Balls are very expensive and operating systems may not be compatible.
The document describes the E-Ball, a concept for a spherical computer. Key aspects of the E-Ball include its small 6-inch diameter size, LCD projector for displaying content on walls or paper, and laser keyboard that projects onto surfaces. The E-Ball would contain standard computer components like a hard drive, RAM, and processor in a portable, sphere-shaped device for presentations or use when a traditional computer is not available or practical.
This document describes a 5 pen personal computer (5 pen PC) technology developed in 2003. The 5 pen PC breaks a computer into 5 pen-sized components connected wirelessly: a CPU pen, camera pen, virtual keyboard pen, projector pen, and communication pen. All components can rest in a base block that charges them. The technology allows for portable ubiquitous computing on any flat surface by projecting a keyboard and monitor. However, questions remain about its commercial availability due to high costs.
The document discusses the Smart Quill, a pen invented by Microsoft Research that can write on any surface and digitize handwritten notes. It contains sensors that record pen movements to recognize handwriting and transform it into text. The Smart Quill is slightly larger than a normal pen and allows the user to train it to recognize their handwriting. It can store notes locally and upload them when docked. While convenient, it has some disadvantages like size, memory issues, and cost.
This document summarizes a presentation on a smart note taker technology. The smart note taker allows users to take notes by drawing in thin air, which are then stored digitally. It works by sensing 3D shapes and motions and storing the information in a memory chip. The notes can then be viewed on a display device or shared digitally. The smart note taker has advantages like being helpful for blind people or those talking on the phone by allowing them to share visual information. It also recognizes many languages and could be useful for presentations.
The document describes a smart quill, a pen invented by researchers at Cambridge University that can record handwritten notes and convert them to digital text. It works by using accelerometers and sensors to detect the pen's movements as it writes and match them to letters and words. The smart quill has advantages like not needing a surface to write on and using normal ink, and it can store notes, recognize handwriting, and include features like a screen and security features to only work with one user's writing. Potential applications include replacing keyboards and allowing input to other devices.
This document provides an overview of e-ball technology, which describes a conceptual spherical personal computer. The e-ball PC would be 160mm in diameter and contain components like a dual-core processor, 2GB RAM, 350-500GB hard drive, integrated graphics and sound card, speakers, wireless mouse, and an LCD projector to project the screen onto a wall. It would run on a Windows operating system and allow touchless input through a virtual keyboard that projects onto any surface. The document discusses the components and features of the e-ball concept in more detail.
The document discusses a conceptual "5 Pen PC" technology prototype from 2003 consisting of 5 pen-like devices: a CPU pen, communication pen, LED projector pen, virtual keyboard pen, and digital camera pen. These pens connect wirelessly to allow a portable computer experience by projecting a keyboard and monitor onto surfaces. The pens aim to enable ubiquitous computing in a minimalist form factor. While portable and feasible, challenges include cost, ease of loss, and battery life. The document outlines the functions and components of the 5 Pen PC prototype.
The P-ISM consists of 5 functions: a CPU pen, camera, virtual keyboard, visual output projector, and phone. It allows users to perform computer functions like typing and viewing content on any flat surface. The pen acts as the computing engine and connects to the internet via Bluetooth and Wi-Fi through a cellular phone function. While portable and enabling ubiquitous computing, challenges include cost, battery life, and the virtual keyboard concept not being novel. The document concludes that this was just the start of more compact communication devices to come.
This document discusses the P-ISM pen-style personal networking gadget package developed by NEC Corporation in 2003. It consists of 5 functions: a CPU pen, camera, virtual keyboard, visual output via an LED projector, and phone connectivity. The pens allow for ubiquitous computing by projecting a keyboard and monitor on any flat surface. While portable, the concept faces challenges with cost, battery life, and precision of the virtual keyboard. Overall, it demonstrates the direction of more compact communication devices.
P-ISM is a "pen-style personal networking gadget" developed in 2003 by Japanese company NEC. It consists of 5 functions: a CPU pen, camera, virtual keyboard, visual output, and phone. The CPU pen acts as the computing engine and uses a dual-core processor. A virtual laser keyboard projects onto any flat surface. An LED projector provides a 1024x768 monitor display. Wireless connectivity is enabled through Bluetooth and Wi-Fi. While portable and providing ubiquitous computing, challenges include cost and ensuring proper keyboard positioning.
P-ISM is a "pen-style personal networking gadget" developed in 2003 by Japanese company NEC. It consists of 5 functions: a CPU pen, camera, virtual keyboard, visual output, and phone. The CPU pen acts as the computing engine and uses a dual-core processor. A virtual laser keyboard projects onto any flat surface. An LED projector provides a 1024x768 monitor display. Wireless connectivity is enabled through Bluetooth and Wi-Fi. While portable and providing ubiquitous computing, challenges include cost, keyboard positioning, and the newness of the overall concept.
The document describes the 5PEN-PC, a pen-style personal computing device developed by NEC in 2003. It has 5 main functions: a CPU pen, communication pen, LED projector, virtual keyboard, and digital camera. The CPU pen acts as the computing engine and runs a Windows operating system. The communication pen connects to the internet via Bluetooth and WiFi. The LED projector displays a screen and the virtual keyboard projects a keyboard onto any flat surface. The camera enables video conferencing. The 5PEN-PC allows users to access the internet and use computer functions anywhere via the portable, wireless device.
The document describes a "5 Pen Technology" device under development by NEC Corporation that includes 5 functions in pen-like devices: a CPU pen, communication pen, virtual keyboard, digital camera, and LED projector. The pens are connected wirelessly and can access the internet via cellular networks. They run Windows and use lithium-ion batteries with a battery life of over a week. The system provides mobility and flexibility through its pen-based design.
The document describes a "pen pc technology" called P-ISM, which was created in 2003. P-ISM allows users to perform computer functions by projecting a keyboard and monitor onto any flat surface using a pen-like device. It has five integrated functions: a CPU pen, camera, virtual keyboard, visual output projection, and cellular phone connectivity. The technology aims to provide portable, ubiquitous computing but has potential drawbacks in terms of cost, battery life, and the novelty of its keyboard concept.
P-ISM is a "pen-style personal networking gadget package" created in 2003 by Japanese company NEC. It includes five functions in a portable package: a CPU pen, camera, virtual laser keyboard, LED projector for visual output, and cellular phone connection. The pens work together wirelessly using Bluetooth and Wi-Fi to allow the user to access computing and internet functions by projecting an interface on any flat surface. While portable and pioneering ubiquitous computing, challenges remain regarding cost, battery life, and perfecting the virtual keyboard technology.
The document describes a "Pen-style Personal Networking Gadget Package" (P-ISM) created in 2003 as a portable all-in-one computer. P-ISM includes five functions: a CPU pen, camera, virtual keyboard, visual output via an LED projector, and cellular phone connection. It allows the user to access computing and internet functions by writing on any flat surface to project a keyboard and monitor. While portable and convenient for ubiquitous computing, challenges include unclear potential, costs, battery life, and precise keyboard positioning. The P-ISM demonstrates the trend toward more compact communication devices, and more advanced portable all-in-one computers can be expected in the future.
P-ISM is a "pen-style personal networking gadget package" created in 2003 by Japanese company NEC. It includes five functions in a portable package: a CPU pen, camera, virtual laser keyboard, LED projector for visual output, and cellular phone connection. The pen devices are connected wirelessly via Bluetooth and WiFi to allow the user to access the internet and exchange information from any flat surface. While portable and convenient for ubiquitous computing, challenges remain regarding cost, battery life, and precision of the virtual keyboard. Overall, P-ISM demonstrated the potential for compact communication devices that are now seen as the start of pen computing technology.
P-ISM is a "pen-style personal networking gadget package" created in 2003 by Japanese company NEC. It includes five functions in a portable device: a CPU pen, camera, virtual laser keyboard, LED projector for visual output, and cellular phone connection. The package uses Bluetooth and WiFi for wireless connectivity and allows the user to access computing and internet functions by projecting the display and keyboard onto any flat surface. While portable and convenient, challenges remain regarding cost, battery life, and precision of the virtual keyboard.
This document discusses the 5 pen pc technology. It was created in 2003 by a Japanese company as a "Pen-style Personal Networking Gadget" consisting of 5 functions: a CPU pen, camera, virtual keyboard, visual output, and phone. The CPU pen acts as the computing engine and uses a dual core processor. A virtual laser keyboard projects onto surfaces. The LED projector provides a 1024x768 resolution monitor. It connects to the internet through a cellular phone function and uses Wi-Fi and Bluetooth connectivity. Benefits include portability and ubiquitous computing, while drawbacks include cost, battery life, and the unproven keyboard concept.
P-ISM (‘Pen-style Personal Networking Gadget Package’), which is nothing but the new discovery, which is under developing stage by NEC Corporation. P-ISM is a gadget package including five functions: a pen-style cellular phone with a handwriting data input function, virtual keyboard, a very small projector, camera scanner, and personal ID key with cashless pass function. P-ISMs are connected with one another through short-range wireless technology. The whole set is also connected to the Internet through the cellular phone function. This personal gadget in a minimalist pen style enables the ultimate ubiquitous computing.
The document describes a proposed new technology called 5-Pen PC Technology being developed by NEC Corporation. It consists of 5 pen-sized devices - a CPU pen, communication pen, virtual keyboard, LED projector, and digital camera - that can be used together to create a portable computing experience by projecting both a keyboard and screen onto any flat surface. When combined via short-range wireless connectivity, the pens allow users to perform functions typically done on a desktop computer in a more portable and ubiquitous style. However, the technology is still in development and prototypes have limitations around stability and fragility of the loose pen components.
The document describes a pen-style personal computing device called P-ISM that allows users to project a keyboard, monitor, and perform computing tasks on any flat surface. P-ISM consists of 5 pen components - a CPU pen, communication pen, projector, virtual keyboard, and camera. It connects to the internet via the communication pen's cellular functionality and projects a 1024x768 resolution display. While portable and allowing ubiquitous computing, P-ISM currently has high costs, battery life and positioning issues, and an unproven keyboard concept. However, it demonstrates the trend of increasingly compact information devices controlled by the hand.
The document describes a concept called the Five Pen PC, which uses five pen-shaped devices to function as a portable computer. One pen acts as the CPU, another as a camera, one projects a virtual keyboard, another projects the display, and the last functions as a phone. The pens communicate wirelessly and can be stored in a block that charges them. While a prototype was developed in 2003, such a device is not commercially available yet. The concept aims to make computing more portable and accessible than current technologies.
The document summarizes the "5 PenPC Technology" concept created by NEC Corporation designer Toru Ichihash. The concept uses five pens that together function as a computer: one pen acts as the CPU, one as a camera, one projects a virtual keyboard, another projects the display, and one enables communication capabilities. When not in use, the pens can rest in a charging block and connect to each other and the internet via wireless technologies like Bluetooth. The document outlines the functions of each pen and notes both advantages like portability but also challenges like cost and ease of losing individual pens.
The document presents information on 5 Pen PC technology. It discusses the history of the pen-style personal computing device created in 2012. The 5 Pen PC consists of 5 functions - a CPU pen, communication pen, visual output projector, virtual keyboard, and camera. It takes input through the virtual keyboard or digital camera. The 5 Pen PC works with Windows due to its dual core processor. It connects via 802.11B/G and Bluetooth wireless technologies. Potential applications include more secure e-fingerprinting.
20CDE09- INFORMATION DESIGN
UNIT I INCEPTION OF INFORMATION DESIGN
Introduction and Definition
History of Information Design
Need of Information Design
Types of Information Design
Identifying audience
Defining the audience and their needs
Inclusivity and Visual impairment
Case study.
How to Manage Internal Notes in Odoo 17 POSCeline George
In this slide, we'll explore how to leverage internal notes within Odoo 17 POS to enhance communication and streamline operations. Internal notes provide a platform for staff to exchange crucial information regarding orders, customers, or specific tasks, all while remaining invisible to the customer. This fosters improved collaboration and ensures everyone on the team is on the same page.
Response & Safe AI at Summer School of AI at IIITHIIIT Hyderabad
Talk covering Guardrails , Jailbreak, What is an alignment problem? RLHF, EU AI Act, Machine & Graph unlearning, Bias, Inconsistency, Probing, Interpretability, Bias
Understanding Cybersecurity Breaches: Causes, Consequences, and PreventionBert Blevins
Cybersecurity breaches are a growing threat in today’s interconnected digital landscape, affecting individuals, businesses, and governments alike. These breaches compromise sensitive information and erode trust in online services and systems. Understanding the causes, consequences, and prevention strategies of cybersecurity breaches is crucial to protect against these pervasive risks.
Cybersecurity breaches refer to unauthorized access, manipulation, or destruction of digital information or systems. They can occur through various means such as malware, phishing attacks, insider threats, and vulnerabilities in software or hardware. Once a breach happens, cybercriminals can exploit the compromised data for financial gain, espionage, or sabotage. Causes of breaches include software and hardware vulnerabilities, phishing attacks, insider threats, weak passwords, and a lack of security awareness.
The consequences of cybersecurity breaches are severe. Financial loss is a significant impact, as organizations face theft of funds, legal fees, and repair costs. Breaches also damage reputations, leading to a loss of trust among customers, partners, and stakeholders. Regulatory penalties are another consequence, with hefty fines imposed for non-compliance with data protection regulations. Intellectual property theft undermines innovation and competitiveness, while disruptions of critical services like healthcare and utilities impact public safety and well-being.
In May 2024, globally renowned natural diamond crafting company Shree Ramkrishna Exports Pvt. Ltd. (SRK) became the first company in the world to achieve GNFZ’s final net zero certification for existing buildings, for its two two flagship crafting facilities SRK House and SRK Empire. Initially targeting 2030 to reach net zero, SRK joined forces with the Global Network for Zero (GNFZ) to accelerate its target to 2024 — a trailblazing achievement toward emissions elimination.
this slide shows husien hanafy portfolio 6-2024hessenhanafy1
Highly Motivated architectural engineer with 6 years of experience in interior, exterior, and landscape design, I'm self-motivated person and a competitive professional who is driven by goals with complete dedication and enthusiasm
( Call ) Girls Vasant Kunj Just 9873940964 High Class Model Shneha Patil
5 pen pc technology
1. 5 Pen PC Technology
Presented by :
Varsha B. Shidore
2. Content
• Introduction
• History
• What is 5 pen PC technology?
• Designer of P – ISM
• Definition of 5 Pen PC Technology(P-ISM)
• The Pen style Computer
• Block Diagram of P-ISM
• P-ISM Gadget Package Functions
• Internal Structure
• Functions
• Battery
• Smart Use
• Advanced computing
• Merits / Demerits
• Conclusion
3. Introduction
• Communication Technology is rapidly increasing in this modern
world. Computer, as everybody knows, is the main communication
machine used.
• Since the time computer has been invented scientists and engineers
have been trying making it more and more compact.
• As a result we have been able to enjoy the numerous functionalities
provided by the computers whether it is Home PCs or Laptops.
Systems have still been reduced so that they are used in Mobiles I-
pods and I-phones have replaced the laptops to an extent.
• It is in this context that Pen Computers come into spot light. These
are computers in the shape of different pens each having a function
of its own and when combined together give us the usage of a full-
blown computer. It is a computer broken apart into pieces, each the
size of a pen.
• The screen and keyboard are projected onto surfaces.
4. History
• "Pen-style Personal Networking Gadget" created in 2003 by
Japanese technology company NEC.
• Its designer Tour Ichihash.
• P-ISM was first featured at the 2003 ITUTelecom world held in
Geneva, Switzerland.
5. What is it?
• Just as the name suggests, this technology is comprised of five
major components. It utilizes Bluetooth and internet in order to
communicate.
• The promise made by 5 Pen PC or the P-ISM technology is that it
will allow you to create a computing environment anywhere you
want.
• If you are at a store and want to kill time, take out your P-ISM out
and it projects an A4 size screen anywhere you want.
6. Designer of P-ISM
Toru Ichihashi said that
“In developing this concept he asked himself-
“What is the future of IT when it is small?”
• The pen was a logical choice.
He also wanted a product that u could touch
and feel.
• Further , the intent is to allow for an office
anywhere.
7. P-ISM
• P-ISM ("Pen-style Personal Networking Gadget Package"), which is
nothing but the new discovery, which is under developing, stage by
NEC Corporation.
• At the 2003 ITU Telecom World exhibition held in Geneva, the
Tokyo-based NEC Corporation displayed a conceptual $30,000
prototype of P-ISM.
• Surely this will have a great impact on the computer field. In this
device you will find Bluetooth as the main interconnecting device
between different peripherals.
• 5 Pen PC Technology is a gadget package including five functions:
• A pen-style cellular phone with a handwriting data input function,
virtual keyboard, a very small projector, camera scanner, and
personal ID key with cashless pass function.
• 5 Pen PC Technology are connected with one another through
short-range wireless technology.
• The whole set is also connected to the Internet through the cellular
phone function. This personal gadget in a minimalist pen style
enables the ultimate ubiquitous computing.
8. The pen style computer
• This is the heart of the P-SIM.
• It runs a dual core processor at the
moment and can run Windows.
• It is not a stretch to imagine that it will
run faster processor and run other
operating systems such as Android and
other Linux variants for niche purposes.
12. CPU Pen
• The functionality of the CPU is done
by one of the pen.
• It is also known as computing engine.
• Dual Core processor is used.
• Works with windows operating system.
• The central processing unit (CPU) is the
portion of a computer system that
carries out the instructions of a
computer program, and is the primary
element carrying out the computer's
functions.
• The central processing unit carries out
each instruction of the program in
sequence, to perform the basic
arithmetical, logical, and input/output
operations of the system.
13. • This term has been in use in the computer industry at least since the early
1960s.
• The form, design and implementation of CPU shave changed dramatically
since the earliest examples, but their fundamental operation remains
much the same.
• Early CPUs were custom-designed as apart of a larger, sometimes one-of-
a-kind, and computer. However, this costly method of designing custom
CPUs for a particular application has largely given way to the development
of mass-produced processors that are made for one or many purposes.
• This standardization trend generally began in the era of discrete transistor
mainframes and mini computers and has rapidly accelerated with the
popularization of the integrated circuit(IC).
• The IC has allowed increasingly complex CPUs to be designed and
manufactured to tolerances on the order of nanometers. Both the
miniaturization and standardization of CPUs have increased the presence
of these digital devices in modern life far beyond the limited application of
dedicated computing machines.
• Modern microprocessors appear in everything from automobiles to cell
phones and children's toys.
14. Communication Pen
• Wireless Bluetooth Technology.
• Connected to internet through cellular phone
function.
• Uses Wi -Fi technology.
• Exchange information with wireless connection.
• They are connected through Tri-wireless modes
(Bluetooth,802.11/ G, and Cellular) which are
made small and kept in a small pen like device.
16. • In fact, no-one expects much activity on 802.11n installations until
the middle of 2008. “Rolling out 802.11n would mean a big upgrade
for customers who already have full Wi-Fi coverage, and would be a
complex add-on to existing wired networks, for those who haven't.
• Bluetooth is widely used because we can able to transfer data or
make connections without wires. This is very effective because we
can able to connect whenever we need without having wires. They
are used at the frequency band of 2.4 GHz ISM (although they use
different access mechanisms).
• Bluetooth mechanism is used for exchanging signal status
information between two devices. This techniques have been
developed that do not require communication between the two
devices (such as Bluetooth’s Adaptive Frequency Hopping), the
most efficient and comprehensive solution for the most serious
problems can be accomplished by silicon vendors.
• They can implement information exchange capabilities within the
designs of the Bluetooth. The circuit diagram for the 802.11B/G is
given below. It is nothing but also type of Bluetooth.
• Using this connectivity we can also connect it with the internet and
can access it anywhere in the world.
17. LED Projector
• When you think about projectors, you think about
those heavy and expensive things you see during
presentations that are mostly rented and not
bought.
• However, projectors have become smaller and
cheaper since.
• There have even been phones with mini projectors
built into them too.
• The P-SIM projector is similar to what you’ll
experience on your portable device.
• Depending on how far you are from a flat surface,
this can be either adequate or very clear.
• As time goes on, newer projectors will be able to
give you even better resolution for high definition
pictures and videos.
• According to NEC, which is developing P-SIM since
2003, the projector could either be stand along or
integrated with the pen style computer.
18. Functions of LED Projector
• Monitor is LED Projector.
• Size is A4.
• Appropriate Resolution capacity is 1024*768 pixels.
• Gives more clarity and good picture.
19. Virtual Keyboard
• Virtual laser keyboard is a new
gadget.
• It emits laser on desk.
• It uses laser beam to generate full
size perfect keyboard that smoothly
connects to PC and Most of the
handheld devices (PDA's, tablet PC').
• The I-Tech laser keyboard acts
exactly like any other "ordinary“
keyboard: A direction technology
based on an optical recognition
mechanism enables the user to tap
on the projected key images,
while producing real tapping sounds
(we call it the WOW effect).
20. How to use Virtual keyboard?
• It is more compatible and it did not require
any practice to operate but you must have
strong fingers to tap.
• The I-Tech Virtual Keyboard uses a light
projection of a full-sized computer keyboard
on almost any surface.
• Used with PDA's and Smart Phones, the
Virtual Keyboard provides a practical way to
do e-mail, word processing and spreadsheet
tasks , enabling users to leave laptops and
computers at home.
• VKB's adaptable technology studies the user's
finger movements to interpret and record
keystrokes. Because the virtual keyboard is an
image projected by light, it disappears
completely when not in use.
21. Actual use of virtual keyboard
• Cellular Telephones
• Space saving Computers
• Laptops
• Tablet PCs
• Clean Rooms
• Industrial Environments
• Test Equipment
• Sterile and Medical
• Environments
• Transport (Air, Rail,Automotive).
22. Features of Virtual Keyboards
• VKB settings can be changed by
Sound
• Connection
• Intensity
• Timeouts
• Sensitivity
• Auto-repeat
23. Digital Camera
• We had digital camera in the shape of pen.
• It is useful in video recording ,video conferencing
simply as a webcam..
• It is connected with other devices through Bluetooth.
• Major advantage : It is small which is easily portable.
• It is 360 degree visual communication device.
• We have seen video phones hundreds of times in
movies.
• Conventional visual communications at a distance
have been limited due to the display devices and
terminals.
• This terminal enables showing of the surrounding
atmosphere and group-to-group communication
with a round display and a central super-wide-angle
camera.
24. Battery
• Is is the most important part in the portable type of computers.
• Usually batteries are small in size and work for a long time.
• It comes with a battery life of 6+ (i.e 6 days).
• For normal use it can be used for 2 weeks.
26. Advanced Computing With the
Amazing 5 Pen PC Technology
• Desktop and laptops have been around for more than 2 decades
now and everybody agrees that they have overstayed their
welcome by a few years. That is true for about 95% of the users.
• They don’t want most of what their computer is capable of doing.
• They don’t want to carry 3.5 pound behemoths for their job.
• Sure, smartphones and tablets are one way to replace them, but
the 5 pen PC technology takes computing to the next level.
27. Merits
• This 'pen sort of instrument' produces both
the monitor as well as the keyboard on any
flat surfaces from where you can carry out
functions you would normally do on your
desktop computer.
• Portable
• Feasible
• Ubiquitous computing is done
• Wi-Fi technology
28. Demerits
• Currently un clear
• High Cost
• Battery
• Keyboard concept is not new
• Positioning is main
29. Conclusion
• The communication devices are becoming smaller and compact.
• This is only an example for the start of this new technology.
• We can expect more such developments in the future.
• Overall, the 5 Pen PC is a very promising device.
• It will certainly change the way we use technology, and indeed
eliminate a lot of heavy devices that we use today, for the most part
of it.