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IMPROVED SITUATIONAL AWARENESS AND OPTIMAL FLIGHT MANAGEMENT SOLUTIONS


Coordinating the effective use of airspace has always been a costly and complex operation, involving many stakeholders in
a variety of disciplines. Decisions made by a single individual ultimately impact other operations. The Lockheed Martin
Airline Solutions team offers products that provide improved situational awareness along with optimal flight management
and proven cost savings. These products are:

FltWinds™ System – which tracks all flights from initial flight plan filing through gate arrival at destination in real time
and provides dispatchers with alerts when their flights are
affected by inclement weather, air traffic control reroute,
delay or other flow management measures.
 
SPEAR™ Software – which enables airlines to analyze operational situations in near real time, and make operational decisions that improve on-time performance, meet customer service goals, and optimize overall operations.

FltWinds™ 2 Coming Soon! 


Integrated Air Situation Display


Proven Cost Benefits
Lockheed Martin’s FltWinds™ system augmented by SPEAR™ software is deployed at several international airlines, and in every case the combination has provided positive cash flow and a return on investment in less than one year.

Efficiency improvements, achieved through implementation of these innovative Lockheed Martin products, translate into immediate cost and carbon dioxide emission reductions for users as well as increases in productivity and customer satisfaction.

Strength through Teaming
In addition, Lockheed Martin offers comprehensive integrated airline operations solutions for air carrier efficiency by teaming with Flugwerkzeuge Aviation Software GmbH (f:wz) for 4-dimensional modular flight planning and a user-friendly, knowledge-based operations user system. Lockheed Martin also provides a full spectrum of graphical and textual weather products through its work with Meteostar, an Information Processing Systems business.

Integrated Airline Operations Suite Brochure
Integrated Airline Operations Suite Fact Sheet
 


Information Systems and Global Services
700 North Frederick Avenue
Gaithersburg, MD 20879
(301) 240-7500

CONTACT
Media and Press Inquiries: (301)640-3336
Business Development: (301)640-2266

The Artimis suite of airline software solutions is a series of turn key added value products. They have been designed with one thing in mind - to drive incremental revenue for airline frequent flyer programmes by combining the power of marketing with operational efficiency. 

Artimis software has been developed through hands-on global airline industry experience, stretching back to 1987. It is currently being used by a number of leading airlines to run their frequent flyer programmes and meet their long term strategic objectives.
Benefits include: 
Marketing solutions and enhancements for both existing and new programmes.
Highest level of security and integrity.
Intuitive navigation for all users.
Flexibility built-in to meet specific client requirements.
Quick to get up and running

Airline Reservations Software



From McCall Aviation website: 'McCall Aviation is an air charter company and fixed-base operator (FBO) based in central Idaho. With a fleet of fourteen airplanes, McCall Aviation specializes in charters to the backcountry and city-to-city flights throughout the intermountain West. The company operates two full service facilities (McCall and Salmon) along with seasonal operations in Stanley and a counter and gate in Boise that provide passenger services.'

In 2003 we were contracted to develop a flight booking and reservation software system for McCall Aviation located in Idaho. One of the most challenging aspects of the database was the requirement to generate flight manifests with point and click functionality. This feature included gathering passenger reservations and assigning to airplanes and then assigning pilots and co-pilots to the flights. 
We also create web-based reservations software for small airlines, charters and hotel reservations.


Airline reservations software key functions are:

Real time entry of flight reservations during telephone calls

Maintenance of returning customer database functions

Group reservation by date and time to dispatch fights

Assign pilots and plans to dispatched flights

Multi-leg flights with partial passenger list segment dropoff

Create various reports for process management

Below is a thumb nail of the airline reservations software data review screen. The reservation entry screen is similar, but optimized for fast data entry:

 


Aggregation of flights, assignment of pilots and plans are all handled on a multi-function screen which is highly optimized for this purpose. Note the moveable popup windows which keep tabs on pilot and plane assignments.

 


Thousands of reservations have been handled by this system with no degradation in performance.


A mini SABRE flight reservation system at one-millionth the cost.

What is Nanotechnology?


A basic definition: Nanotechnology is the engineering of functional systems at the molecular scale. This covers both current work and concepts that are more advanced.

In its original sense, 'nanotechnology' refers to the projected ability to construct items from the bottom up, using techniques and tools being developed today to make complete, high performance products.

The Meaning of Nanotechnology

When K. Eric Drexler (right) popularized the word 'nanotechnology' in the 1980's, he was talking about building machines on the scale of molecules, a few nanometers wide—motors, robot arms, and even whole computers, far smaller than a cell. Drexler spent the next ten years describing and analyzing these incredible devices, and responding to accusations of science fiction. Meanwhile, mundane technology was developing the ability to build simple structures on a molecular scale. As nanotechnology became an accepted concept, the meaning of the word shifted to encompass the simpler kinds of nanometer-scale technology. The U.S. National Nanotechnology Initiative was created to fund this kind of nanotech: their definition includes anything smaller than 100 nanometers with novel properties.

Much of the work being done today that carries the name 'nanotechnology' is not nanotechnology in the original meaning of the word. Nanotechnology, in its traditional sense, means building things from the bottom up, with atomic precision. This theoretical capability was envisioned as early as 1959 by the renowned physicist Richard Feynman.

I want to build a billion tiny factories, models of each other, which are manufacturing simultaneously. . . The principles of physics, as far as I can see, do not speak against the possibility of maneuvering things atom by atom. It is not an attempt to violate any laws; it is something, in principle, that can be done; but in practice, it has not been done because we are too big. Richard Feynman, Nobel Prize winner in physics

Based on Feynman's vision of miniature factories using nanomachines to build complex products, advanced nanotechnology (sometimes referred to as molecular manufacturing) will make use of positionally-controlled mechanochemistry guided by molecular machine systems. Formulating a roadmap for development of this kind of nanotechnology is now an objective of a broadly based technology roadmap project led by Battelle (the manager of several U.S. National Laboratories) and the Foresight Nanotech Institute.

Shortly after this envisioned molecular machinery is created, it will result in a manufacturing revolution, probably causing severe disruption. It also has serious economic, social, environmental, and military implications.

Four Generations

Mihail (Mike) Roco of the U.S. National Nanotechnology Initiative has described four generations of nanotechnology development (see chart below). The current era, as Roco depicts it, is that of passive nanostructures, materials designed to perform one task. The second phase, which we are just entering, introduces active nanostructures for multitasking; for example, actuators, drug delivery devices, and sensors. The third generation is expected to begin emerging around 2010 and will feature nanosystems with thousands of interacting components. A few years after that, the first integrated nanosystems, functioning (according to Roco) much like a mammalian cell with hierarchical systems within systems, are expected to be developed.

Some experts may still insist that nanotechnology can refer to measurement or visualization at the scale of 1-100 nanometers, but a consensus seems to be forming around the idea (put forward by the NNI's Mike Roco) that control and restructuring of matter at the nanoscale is a necessary element. CRN's definition is a bit more precise than that, but as work progresses through the four generations of nanotechnology leading up to molecular nanosystems, which will include molecular manufacturing, we think it will become increasingly obvious that "engineering of functional systems at the molecular scale" is what nanotech is really all about.

Conflicting Definitions

Unfortunately, conflicting definitions of nanotechnology and blurry distinctions between significantly different fields have complicated the effort to understand the differences and develop sensible, effective policy.

The risks of today's nanoscale technologies (nanoparticle toxicity, etc.) cannot be treated the same as the risks of longer-term molecular manufacturing (economic disruption, unstable arms race, etc.). It is a mistake to put them together in one basket for policy consideration—each is important to address, but they offer different problems and will require different solutions. As used today, the term nanotechnology usually refers to a broad collection of mostly disconnected fields. Essentially, anything sufficiently small and interesting can be called nanotechnology. Much of it is harmless. For the rest, much of the harm is of familiar and limited quality. But as we will see, molecular manufacturing will bring unfamiliar risks and new classes of problems.

General-Purpose Technology

Nanotechnology is sometimes referred to as a general-purpose technology. That's because in its advanced form it will have significant impact on almost all industries and all areas of society. It will offer better built, longer lasting, cleaner, safer, and smarter products for the home, for communications, for medicine, for transportation, for agriculture, and for industry in general.

Imagine a medical device that travels through the human body to seek out and destroy small clusters of cancerous cells before they can spread. Or a box no larger than a sugar cube that contains the entire contents of the Library of Congress. Or materials much lighter than steel that possess ten times as much strength. — U.S. National Science Foundation

Dual-Use Technology

Like electricity or computers before it, nanotech will offer greatly improved efficiency in almost every facet of life. But as a general-purpose technology, it will be dual-use, meaning it will have many commercial uses and it also will have many military uses—making far more powerful weapons and tools of surveillance. Thus it represents not only wonderful benefits for humanity, but also grave risks.

A key understanding of nanotechnology is that it offers not just better products, but a vastly improved manufacturing process. A computer can make copies of data files—essentially as many copies as you want at little or no cost. It may be only a matter of time until the building of products becomes as cheap as the copying of files. That's the real meaning of nanotechnology, and why it is sometimes seen as "the next industrial revolution."

My own judgment is that the nanotechnology revolution has the potential to change America on a scale equal to, if not greater than, the computer revolution. — U.S. Senator Ron Wyden (D-Ore.)

The power of nanotechnology can be encapsulated in an apparently simple device called a personal nanofactory that may sit on your countertop or desktop. Packed with miniature chemical processors, computing, and robotics, it will produce a wide-range of items quickly, cleanly, and inexpensively, building products directly from blueprints.

Click to enlarge
Artist's Conception of a Personal Nanofactory

Courtesy of John Burch, Lizard Fire Studios (3D Animation, Game Development)

Exponential Proliferation

Nanotechnology not only will allow making many high-quality products at very low cost, but it will allow making new nanofactories at the same low cost and at the same rapid speed. This unique (outside of biology, that is) ability to reproduce its own means of production is why nanotech is said to be an exponential technology. It represents a manufacturing system that will be able to make more manufacturing systems—factories that can build factories—rapidly, cheaply, and cleanly. The means of production will be able to reproduce exponentially, so in just a few weeks a few nanofactories conceivably could become billions. It is a revolutionary, transformative, powerful, and potentially very dangerous—or beneficial—technology.

How soon will all this come about? Conservative estimates usually say 20 to 30 years from now, or even much later than that. However, CRN is concerned that it may occur sooner, quite possibly within the next decade. This is because of the rapid progress being made in enabling technologies, such as optics, nanolithography, mechanochemistry and 3D prototyping. If it does arrive that soon, we may not be adequately prepared, and the consequences could be severe.

We believe it's not too early to begin asking some tough questions and facing the issues:

bulletWho will own the technology?
bulletWill it be heavily restricted, or widely available?
bulletWhat will it do to the gap between rich and poor?
bulletHow can dangerous weapons be controlled, and perilous arms races be prevented?

Many of these questions were first raised over a decade ago, and have not yet been answered. If the questions are not answered with deliberation, answers will evolve independently and will take us by surprise; the surprise is likely to be unpleasant.

It is difficult to say for sure how soon this technology will mature, partly because it's possible (especially in countries that do not have open societies) that clandestine military or industrial development programs have been going on for years without our knowledge.

We cannot say with certainty that full-scale nanotechnology will not be developed with the next ten years, or even five years. It may take longer than that, but prudence—and possibly our survival—demands that we prepare now for the earliest plausible development scenario.

More Background on Nanotechnology:

bulletNanotechnology Basics - For students and other learners
bulletManaging Magic - A brief overview of the challenges posed by advanced nanotechnology
bulletNanotechnology on an Upward Slope - An online PowerPoint presentation
bullet Turn on the Nanotech High Beams - An essay published by Future Brief
bulletNano Simulation - A way to visualize what is meant by molecular manufacturing
bullet Debating the Future of Nanotechnology - Perspective from the Foresight Institute
bulletSafe Utilization of Advanced Nanotechnology - One of the founding papers of CRN
bullet5-Minute Nanosystems - A quick summary of Eric Drexler's foundational work on nanotechnology
bulletNanotechnology Press Kit - Compiled and published by Nanotechnology Now

Industry Robots

SCARA

scara

Toshiba Machine offers one of the most extensive range of SCARA arms on the market.

The general purpose SCARA, the TH series, extends from 250mm to 1050mm and can carry payloads from 3-20kg, with an accuracy of between 0.01mm and 0.03mm.

The HZ series, which is suitable for carrying large-sized, heavy workpieces, has arm lengths of between 1050mm and 1950mm and can carry up to 70kg payloads.

View the Scara range

CARTESIAN

Cartesian

The Cartesian range of industrial robots is available in one to four axis lengths and offers complete flexibility, meeting extensive customer requirements.

app1

Application:
Gate cutting

Industry:
Plastics

Model of robot:
SR-HSP series
(420-1050mm)
3-20kg

app2

Application:
Insert and LD/UNLD from vertical injection moulding

Industry:
Plastics

Model of robot:
SR-HSP series
(420-1050mm)
3-20kg

app3

Application:
Sealing/dispensing

Industry:
Auto parts and home electrical appliances manufacturing

Model of robot:
SR-L series (or SR-H series) Payload 20kg (70kg for SR-H series)

app4

Application:
Loading and unloading parts to and from the press

Industry:
Auto parts, home electrical appliances and electronic equipment manufacturing

Model of robot:
SR-H series
(Payload 10-70kg, arm 550-1950mm)

app5

Application:
Loading and unloading parts to and from the machine tool (i.e. turning machine)

Industry:
Auto parts manufacturing and metalworking

Model of robot:
SR-1054HSP series
(Payload 20kg, arm 1059mm)

app6

Application:
Small parts assembly

Industry:
Makers of auto parts, home electrical appliances and electronic equipment

Model of robot:
SR-HSP series
(Payload 2-20kg, arm 420-1050mm)


Technology Innovations

Robots

Image: ApriAlpha Robot.

Introducing our little home helper, ApriAlpha Robot

It Hears - Voice recognition allows ApriAlpha to follow spoken instructions and even be called over from a distance. It Patrols - TALKS speech synthesis puts speech into text - and ApriAlpha can read emails aloud. It Sees - Image recognition means ApriAlpha can recognise and respond to 100 different people. It Talks - ApriAlpha is also a robot guard, capturing images and sending what it sees to its owner. It Communicates - Wireless LAN, Bluetooth™ and Infrared equip ApriAlpha as the ultimate remote control.

Toshiba announced its first generation "ApriAlpha™" prototype of a life support home robot, in March 2003. ApriAlpha™ could carry out multiple tasks around the home, including control of home appliances, and integrated voice recognition and voice synthesis technologies that allow it to communicate with people in simple conversations. It could also provide such information as news, weather updates and other useful information, and read out e-mail, and also integrated image-recognition technology allowing it to recognize people whose features were recorded to its memory.

More important than its built-in functions was ApriAlpha™'s integration of Open Robot Controller Architecture (ORCA), which enables simple additions of new functions and upgrades of present functions. ORCA allows manufacturers to quickly and easily integrate software developed by third parties into their systems, achieving efficient development of advanced robots. This architecture is also integrated into the new robots.
Image: ApriAlpha Robot and ApriAttenda.

Sophisticated Home Life Support Robots

Toshiba shares a growing interest in the development potential of home robots that advance robotics towards the concept of a "life support partner" - a sophisticated robot able to deliver human-centric technologies that provide assistance and support the elderly and young children in the home and in public places such as shopping complexes.

The robot that can accompany people. "ApriAttenda," first of all identifies an individual with its visual sensor and high-speed image processing system by instantaneously recognizing the registered color and texture of the person's clothes. The ability to follow a moving individual requires capabilities going beyond facial recognition. ApriAttend has to detect and recognize the person and calculate his or her position from a complicated real-life landscape of fixed objects and moving people. Toshiba's new algorithm allows the robot to extract a particular individual from cluttered backgrounds, and to find and reconnect with the person if it loses visual contact.

When the captured subject moves forward, ApriAttenda moves forward. When the person stops, the robot moves to point beside the subject and also stops. ApriAttenda constantly calculates position and the distance to the subject and adjust its speed to maintain a certain distance from the subject. As the subject moves, an integrated ultrasonic sensor checks for obstacles in the robot's way, and the robot negotiates these while maintaining visual contact with the person. If ApriAttenda loses that visual contact, it calls to the person as it searches for and tries to restore the contact.

The new robots were developed as part of the New Energy and Industrial Technology Development Organization's (NEDO) "Next-Generation Robot Commercialization Project (Prototype Development Support Enterprise)". Some of the image processing technologies used for the robot that can follow a person were jointly developed with the Tokyo University of Science.

Is It Worth Buying Affiliate Software?

Many of us dream of giving up our jobs and working for ourselves. Being your own boss can provide the responsibility level you want as well as the incentive to perform well. Running your own business usually mean lots of hard work but the rewards can bequite tremendous.

When it comes to starting a business, many people get scared. They worry about loosing that security that their job has provided. They also worry about the risk involved in starting your own business. The risk is worth considering being that anywhere from 70-90 % of all small businesses fail in the first year.

Affiliate marketing is a great way to work for yourself with minimal risk. When you work as an affiliate you usually sell a range of goods or services for profit. You will still have to work very hard to promote your business; however the financial risk to you is extremely low.

Many who have started their affiliate marketing businesses wonder about affiliate Software. They wonder if it is worth purchasing and what it can do for their particular business. The answer to theses questions lies entirely in the individual affiliate and the type of business that they have. However, there are some general things to try and consider before you shell out hundreds of dollars on affiliate software.

Before buying any software program, you need to apply some perspective. Software will not take a floundering company and get it into fortune 500. It is simply a tool to help you in various aspects of running a business. You will still have to do all of the hard work. The software will only help.

Once you have some perspective, then you need to list your companies needs. How are you at keeping accounts? Could you do better with software? Many people do purchase software to manage accounts for them. Especially when their businesses start to take off. Chances are you can do just as good of a job on your own but software will make it go much faster. You must keep in mind however, that software does take time to learn. However, once you have mastered it accounting software can help you keep track of your incoming money and outgoing at a much faster rate than if you were to do it yourself.

You should never purchase any software without previewing it first. This way you can tell if this particular style of software is what you need. Most places will give you a free trail, if not find someone who will. You could also find free software that you can download from the internet. It takes little time to put this onto your computer. It is certainly worth at least trying the free software. It doesn’t cost anything and could save you money if it does what you need it to do. If it doesn’t then you can always have it removed and purchase what you need.

If you have a knack for sales or marketing then perhaps you should consider the world of home based affiliate marketing programs. You can put your creativity, skills and expertise to work for you rather than someone who doesn’t appreciate them. When your business starts to pick up, you may want to consider the purchase of some affiliate software. It can help you manage your accounts and increase your website traffic. You could find it for free online or get a free trail from a software company. What ever you decide, remember keep some perspective of what it can do. Software is only a tool it won’t work miracles.

ZOTAC unleashes silent GeForce 9500 GT

ZOTAC International Ltd. announced the two latest additions to its silent ZONE Edition product lineup - the ZOTAC GeForce 9500GT DDR2 and GeForce 9500GT DDR3 ZONE Editions. The new ZOTAC GeForce 9500GT ZONE Editions pair the high-performance of NVIDIA's GeForce 9500GT graphics processor with passive cooling for a silent graphical computing experience.

The ZOTAC GeForce 9500GT DDR2 and GeForce 9500GT DDR3 ZONE Editions eliminate noise from the graphics card by replacing the active GPU cooler on ZOTAC GeForce 9500GT DDR2 and GeForce 9500GT DDR3 models. In place of the active GPU cooler is a large passive cooler that allows the ZOTAC GeForce 9500GT ZONE Editions to operate silently.


As with the other NVIDIA GeForce 9500GT-based products, the ZOTAC GeForce 9500GT ZONE Editions feature NVIDIA's unified architecture with 32 blazing-fast stream processors. The 32 stream processors are paired with 512MB of high-speed GDDR2 or GDDR3 graphics memory, connected via 128-bit wide bus to keep up with the demands of 3D gaming.

In addition to high-performance, the ZOTAC GeForce 9500GT ZONE Editions feature a second-generation PureVideo HD video-processing engine, making the cards ideal solutions for digital home applications such as home theater PCs. PureVideo HD technology enhances and cleans up all digital video content for optimal viewing on high-definition displays up to Full HD 1080p resolutions.

PureVideo HD technology is also ideal for watching high-definition content such as Blu-ray and HD DVD movies. The PureVideo HD video-processing engine decodes high-definition H.264 content, typically used by Blu-ray and HD DVD movies, completely using the GPU to free up the CPU for more mundane tasks. High-definition VC-1 encoded content also receives hardware accelerated decoding with the PureVideo HD video-processing engine, for low CPU utilization during playback.

The ZOTAC GeForce 9500GT ZONE Editions also feature HDMI output via included DVI-to-HDMI adapter and S/PDIF audio input so users can connect any S/PDIF capable audio device to the graphics card
for simultaneous audio and video output. Additionally, the dual dual-link DVI outputs, HDMI included, are HDCP complaint, allowing users to view protected high-definition content, when connected to an HDCP capable display.

Shalini /ITvoir Network

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