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The future in search appears to be how real-time data is going to be accessed by users. Twitter is at the forefront of this with its enormous feed of status updates from its users.

As we speak, the data is being parsed by hundreds of websites that use the Twitter API. This data is manipulated in many different ways. However, there is one way to search this data that will always be true, keywords.

We all know how important keywords are in content thanks to Google. Twitter is teaching us how important these keywords are in our Tweets. Relationships are created via the keywords that are in the Tweets and people are finding Tweets based on those keyword searches.

There are two types of keywords on Twitter.

The first is actual keywords as you imagine them, such as “seo” and then the hash tag version of keyword, such as “#seo”.

The first version, the actual keyword, is where I believe the future of Twitter exists. Let us take Google as an example. As we all know, arguably, meta data holds very little to no weight with Google (specifically the meta keywords). Hash tags are essentially meta keywords.

But for this particular article, I will focus on the first version of a keyword (without hash tags). I will address hash tags in depth in a following article.

The future of keywords on Twitter.

In a character constrained world, timing and placement is everything. That is to say that where and how you use keywords in your Tweets is important.

There are a few things you must remember when using keywords on Twitter:

On more than one occasion, I have witnessed an exclamation point next to a keyword be picked up as part of the keyword. e.g. “apples!” Which means I did not show up for that search (apples) because I placed my intended keyword next to punctuation (in this case, an exclamation point). I would expect this to be fixed in the ensuing months.

A search for “apple” will not yield results for “apples” and vice versa. Due to this, it is important to use different variations of a keyword in a tweet if it applies.

Twitter currently does not have the ability to understand that “closetdoor” is two words. It also does not understand misspelled words. However, “closetdoor” will show in search results for “closet”.

I recently did research into shortened URLs and found that keywords located in the shortened urls are as important as keywords in the Tweet, arguably more.

In the real-time search world, the timing of your tweet is critical. This could be why popular tweeters blast out 5-10 tweets simultaneously at peak hours.

When something like Twitter comes along and produces results that aren’t exactly what we are looking for even if it is showing results for exactly what we searched for, it makes us realize how good we had it with Google. Google was once explained to me as, “They just know what I am looking for.”.

This is why I believe the future is in natural keywords in the tweets. Soon Twitter will not need us to tell them which keywords are important with a hash, they will just know. I may be giving them too much credit and over-simplifying search, but Twitter will become better at search either by themselves or opening up their data to someone such as Google.

Food For Thought

Joshua Odmark is a technology consultant at Simply Ideas LLC and also blogs for Performance Marketing Blog. Follow him on Twitter or connect with him on LinkedIn.

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Future Of The Car: The Electric

In the past three years, the thought of companies like Chevrolet and Nissan selling lithium-ion-powered cars has gone from laughable to old news. Late this year, the plug-in Chevy Volt and pure-electric Nissan Leaf arrive. Carmakers from Ford to Toyota will follow in 2011 and 2012 with new electrified models of their own. In the beginning, the electric-car revolution probably won’t seem so revolutionary: a few thousand cars here and there. As long as automakers and battery companies keep pushing technology forward, however—by scaling up production and developing more-powerful ways to store electricity and power a car with it—the future for cars that plug into the wall will continue to brighten. Here’s where this emerging industry stands today.

How Electric Car Batteries are Built

Based on the process used by the American lithium-ion company EnerDel

How Electric-Car Batteries Are Built

Lithium-ion batteries—the dominant technology in forthcoming electric cars—begin when active battery ingredients are combined to form an electrode slurry. A liquid solvent, electrode powder (for the negative electrode, a form of carbon; for the positive, a form of lithium-containing metal oxide or phosphate) and a chemical binder are blended into a paste in what look like industrial pizza-dough mixers.

The coater, a machine reminiscent of a printing press, paints the electrode slurry onto long sheets of metal foil (copper for the negative, aluminum for the positive).

The freshly coated sheets pass through an oven for curing at 200ºF. The oven can be a bottleneck; its size and speed determine the rate of production.

To make rectangular, “prismatic” batteries, machines chop the long reels of electrode material into paperback-size pieces, which are then compressed, brushed, and vacuumed.

With a piece of porous separator material (it looks like white trash-bag plastic) between them, the positive and negative electrodes are sandwiched together into stacks. The separator prevents short-circuiting while still allowing the electrodes to exchange ions. The stacks go into plastic pouches that are then filled with liquid electrolyte and vacuum-sealed shut. The result is a cell, the building block of a battery.

After pre-charging (just enough juice to start the chemical reaction), the cell is opened, vented, and resealed. Next the cells are charged to 60 percent, then aged for 14 days.

Cells are bundled together (along with cooling and heating mechanisms, the voltage-monitoring circuitry, and other control systems) to form modules. Modules are then bundled together in a case and wired with additional monitoring circuitry to form the final battery pack, the box that powers a car.

How Electric Car Batteries are Built Continued

The Rust-Belt Battery Boom The Department of Energy spent $2.4 billion last year to launch an American EV-battery industry. These are the biggest winners

Through its partnership with the French battery company Saft, Johnson Controls builds lithium-ion batteries for Mercedes, BMW, Ford and others. A $299.2-million DOE grant goes toward a new factory in Holland, Michigan.

A $249.1-million grant will help the Boston-area company build a cell factory near Detroit, from which it hopes to supply GM, Chrysler and others.

The Dow Chemical joint venture banked $161 million for a new Michigan lithium-ion factory.

A $151.4-million grant will help build a Michigan factory to supply batteries for the Chevy Volt.

EnerDel, a supplier for Volvo and Think, is using its $118.5-million share to build a third EV-battery factory in Indianapolis.

Asia’s Advantage: Battery-Building Dominance

Emerging Electric-Car Hotspots: The East

The Chinese government has a goal: rule the global electric-car market by mid-decade. Of China’s 47 car companies, the Shenzhen-based BYD, which says it will begin selling its e6 EV in the U.S. this year, gets the most buzz. Fresh off a $230-million investment by Warren Buffett, BYD wants to surpass Toyota as the world’s largest car company by 2025, and it has an army of 30,000 workers living in high-rise dorms on its four-square-mile campus to make it happen.

Japanese companies have dominated lithium-ion manufacturing since Sony first commercialized the technology in 1991. Those companies have joined Mitsubishi, Nissan and Toyota in the scramble for a place in the new electric-car industry.

An American arm of the Korean company LG Chem will build batteries for the Chevy Volt.

America’s Advantage: New Ideas, Big Gamblers

Emerging Electric-Car Hotspots: The U.S.

An intellectual hub for the American electric-car movement, the Bay Area is home to Tesla Motors and various electric-car infrastructure companies. San Francisco is already installing charging stations for the early-adopter market. Stanford University, the University of California at Berkeley and Lawrence Berkeley National Laboratory help supply the EV scene with brainiacs, while the Bay Area’s venture capitalists keep the funding flowing.

Luxury plug-in-hybrid start-up Fisker Automotive is here, along with Coda, an American company scheduled to bring Chinese-built electric cars to the States later this year.

The Big Three automakers are still standing, and at least the two biggest among them, GM and Ford, are betting on electrification. In addition to the Chevy Volt, GM’s Cadillac has designed a plug-in concept that may become reality. Ford’s all-electric Focus and upcoming plug-in hybrid are due out in the next two years. At least four battery companies are building automotive-grade lithium-ion cell factories in Michigan, and GM’s new battery-pack assembly plant began producing Volt batteries in January.

The CEO of the Indianapolis-based lithium-ion company EnerDel calls greater Indy the “Silicon Valley of the auto industry.” EnerDel, which makes EV batteries for Volvo, Think and others, is building a third factory here, and electric-drive-component suppliers such as Delphi, Allison Transmission and Remy are also in the area.

Nissan will build up to 150,000 Leaf electric cars per year at its plant in Smyrna by 2012. It will make the batteries for those cars in a Tennessee factory it’s building with a $1.4-billion loan from the DOE.

Chevrolet Volt

DUE OUT: November

Nissan Leaf

DUE OUT: December


DUE OUT: Late this year

Coda Sedan

DUE OUT: Late this year

Ford Focus BEV

DUE OUT: Next year

Prius Phev

DUE OUT: 150 cars in the u.s. this year

Tesla Model S

DUE OUT: Officially next year, although 2012 seems more likely

The Potential Of 5G Technology In The Future Of Mobile Gaming

Faster and More Reliable Connections

One of the most significant benefits of 5G technology for mobile gaming is its potential to offer faster and more reliable connections. With 5G technology, mobile gamers will be able to enjoy smoother gameplay and faster download speeds, which is particularly important for online multiplayer games. Additionally, 5G technology is expected to reduce latency, which will further enhance the gaming experience.

5G Technology Benefits for Mobile Gaming

Faster download speeds

Smoother gameplay

Reduced latency

Moreover, 5G technology is expected to provide a more reliable connection than previous generations of mobile technology. This is because 5G uses multiple small cells to provide a stronger and more consistent signal. As a result, mobile gamers will experience fewer interruptions and disruptions to their gameplay.

Enhanced Gaming Features

New Gaming Features Enabled by 5G Technology

Augmented reality (AR) and virtual reality (VR) gaming experiences

More sophisticated graphics and visual effects

More realistic sound effects

Moreover, 5G technology can enable mobile gamers to access games and the best Ontario Online Casinos more quickly and efficiently. This is because 5G networks are expected to offer faster download speeds and lower latency than previous generations of mobile technology. As a result, mobile gamers will be able to download and start playing games, more quickly than ever before.

With the potential for more stable connections, 5G technology may also improve online multiplayer gaming experiences. This means that mobile gamers can play games with friends and other players from around the world without worrying about lag or other connectivity issues.

Increased Access to Online Multiplayer

Online multiplayer gaming has become increasingly popular in recent years, and 5G technology is expected to make it even more accessible. With 5G technology, mobile gamers will be able to enjoy more seamless online multiplayer gaming experiences, which will create more social and competitive gaming experiences.

Benefits of 5G Technology for Online Multiplayer Gaming

More seamless online multiplayer gaming experiences

More social and competitive gaming experiences

Challenges and Limitations

While 5G technology offers many potential benefits for mobile gaming, there are also several challenges and limitations that must be considered. One of the biggest challenges is the cost of 5G technology. The infrastructure required to support 5G networks is expensive, and this cost may be passed on to consumers through higher mobile data plan prices. Additionally, not all regions may have access to 5G networks, which could limit the availability of 5G-enabled mobile gaming experiences.

Challenges and Limitations of 5G Technology for Mobile Gaming

Cost of 5G infrastructure and potential increase in mobile data plan prices

Limited availability of 5G networks in certain regions

Another potential limitation of 5G technology for mobile gaming is that not all mobile devices will be able to support it. While many newer devices are 5G-enabled, older devices may not be compatible. This could create a divide between those who can and cannot access 5G-enabled mobile gaming experiences.

Despite these challenges and limitations, the potential benefits of 5G technology for mobile gaming are significant, and the industry is expected to continue to evolve as 5G technology becomes more widespread.


In conclusion, 5G technology has the potential to revolutionize the future of mobile gaming. With faster and more reliable connections, enhanced gaming features, and increased access to online multiplayer, 5G technology offers many potential benefits for mobile gamers and game developers alike. However, it is important to consider the challenges and limitations of 5G technology, such as the cost and availability of 5G infrastructure and the compatibility of devices.

5 Trends Shaping The Future Of Igaming Industry

The iGaming market is extremely diverse and fast-moving. Spoilt players are constantly craving for more and are no longer satisfied with the same technologies. Software developers and game creators need to invent and implement new technologies in order to make the players stay.

In this article, we will discuss the five main trends which shape the gaming market and that will influence the way our favourite products look and act. After finishing reading, you’ll be aware of all the latest technologies that make gaming as it is: virtual reality, artificial intelligence, big data, and more.

Virtual reality

VR technology gives players a unique opportunity to become a part of the game. Have you seen people with weird helmets in front of a screen? These are VR fans who participate in sports events, find and kill assassins, or simply have a walk in a beautiful park. The only drawback of VR technology is the price of equipment. It is still too expensive for regular players and until the price reduces, it’s unlikely that gamers will purchase VR tools for domestic use.

However, many software developers and online casinos implement this technology. For example, on


you can search for operators that offer players full immersion into the gambling process as if they are sitting at a blackjack table.

Mobile gaming

With 5G networks and high-resolution screens of smartphones, mobile gaming becomes one of the leading tendencies in gaming. Due to great speed, mobile payments, and first-class quality of devices, players can enjoy their favourite games on the go or while sipping cocktails by the pool.

Mobile gaming adds new opportunities because you are no longer limited to a keyboard and a gamepad. Players can use phones, tablets, and even smartwatches to enjoy their favourite games. And they no longer miss important tournaments and time-limited events. The future is after mobile gaming, so more and more developers and inventors set an eye on it.

Cloud-based technologies

Even though the market was hit by such start-ups as


streaming and G-cluster, the cloud-based technology failed to become very popular among players. And the reason is simple: they need to send data to a cloud server and receive video and audio at the same time.

Limited bandwidth and short-latency make this technology a bit complicated for common gamers. However, Google, Microsoft, and EA are already working on cloud-based solutions for the industry, so rather soon we will see significant shifts.

Artificial intelligence

With the help of AI and the latest machine-learning tools, it is possible to collect and process data much faster. All the processes are held in real-time which significantly contributes to a positive gaming experience. The artificial intelligence is extremely promising especially for iGaming because it allows making suggestions which games to play or how to customize them.

Moreover, AI is able to detect doubtful behaviour to protect software from hacker attacks or to find compulsive gamblers. In addition, technology helps to regulate the industry and to comply with the latest regulations and standards.

Big data

Big data refers to huge volumes of information that are circulating online. In 2023, the revenues from the technology were predicted to be

$49 million

which makes the sphere rather promising. The Big Data technology is a software tool which analyses, extracts, and processes necessary information from large data volumes. This technology works when traditional processing software fails. Big data is extremely promising.

In iGaming, it can be used to collect and store lots of information on players’ preferences, in-game activities, and interaction between different participants. Big Data also allows finding and distinguishing key elements to ensure proper usage of the software.

The technology may also be a turning point for a wide range of industries including banking, law, and even healthcare because we are living in a world of information and it becomes extremely difficult to find the necessary data.

The future is bright

Virtual and augmented reality, cryptocurrency slots, artificial intelligence – these are only some of the tendencies and trends that we witness at the moment. All of them make gaming a perfect escape and an opportunity to brighten up the routine.

Smart Materials: The Future Of Efficient And Cutting

Amorepacific Headquarters by David Chipperfield Architects

In our forever-changing world, with the change of time, one strives for efficiency and adaptability to the future. The modern lifestyle is dependent on AI technology, smartphones, smart watches, smart home devices, and new technology gadgets hence we must also evolve with technology and time. A designer strives to achieve a good design by creating a structure that is efficient, durable, and sustainable. Materials are the building blocks of any construction; the correct material choice can improve the performance and life cycle of any structure. 

Smart materials are the future of efficient and cutting-edge design and construction. Future buildings design should strive to be efficient with less environmental impact hence, one must tend to have smart choices. They have a positive impact and benefits for any structure used extensively for construction purposes.

What are smart materials?

CH2 Melbourne City Council House 2 by DesignInc

Benefits of adapting Smart materials

Thermobiometal (Metal that Breathes)

Thermobiometal is a smart material that is responsive to temperature/climate conditions. It is self-responsive to harsh sunlight conditions and can help create shaded space with the form. The materials curl up when heating and flatten when it cools. This heat-responsive material is an example of efficient material innovation.

Benefits of Thermobiometal

An innovative example of thermobiometal structure/form is the “Bloom” Installation designed by USC architect professor Doris Kin Sung. The Bloom installation is located at the Materials and Application Gallery in Los Angeles, California. This installation was built using 14,000 thermobiometal pieces stitched together. The form curls when heating and its responsive form creates shade and ventilation in the area when there is harsh sunlight.


Hydroceramic by IAAC Studio Digital Matter

The material was developed by IAAC (The Institute for Advanced Architecture of Catalonia – 2013). Hydroceramic is a composite material using the smart material component – Hydrogel and Clay ceramic. This project tackles the thermodynamic process of a building passively using hydrogel composite material. The project members (Students) were supervised by senior faculty members who experimented with using hydrogel to change the temperature of any interior space. The evaporative property and thermal mass of hydrogel were combined, with the humidity control property of clay ceramic and fabric. This composite material developed is responsive to heat and water. This composite material can lower the temperature of an interior space by 5 degrees.

Benefits of Hydroceramic

Self-Healing Concrete (Bio Concrete)

Concrete is the most abundantly used construction material prone to cracking under weather conditions. The Dutch developed a type of concrete that can self-heal cracks and requires no maintenance. The components of cement are evolving by creating self-healing properties in cement. Basilisk Concrete is a self-healing type of concrete developed in the Netherlands. The concrete mix is mixed with microcapsules that release glue-like epoxy resin that helps heal the cracks formed. This type of concrete can be used for streets, sidewalks, etc.

Benefits of Self-healing Concrete

Light Emitting Cement

Van Gogh Cycle Route by Daan Roosegaarde

Light-emitting cement/concrete is a smart and green material that self-illuminates light. The material was developed by Dr. Jose Carlos Rubio from the Michoacan University of Saint Nicholas of Hidalgo, Mexico. This innovative material charges using natural sunlight during the day and radiates light at night. The material utilizes a sustainable natural method of light charging without the use of resources. The microstructure of the cement is modified to absorb solar energy. The bike path of Eindhoven (2014) is an example where light-emitting cement is used.

Benefits of utilizing Light-emitting cement

Carbon Fibre (Graphite fibre)

Masion Fibre

Carbon fibre is used for construction due to its strength and can be applied to various structures. It is known for its properties such as Strength, Durability. It is stronger and stiffer in comparison to traditional steel material. Carbon fibre is thin carbon strands (Thin as human hair) that are woven into several forms as per designs. The material since it is flexible can withstand harsh environmental conditions.

Benefits of Carbon Fibre

Aerogel (Frozen Smoke)

Aerogel Solid Silica Block

Aerogel, often referred to as “Frozen Smoke” is a material used for insulation. It is an insulating material prepared by supercritical drying of liquid gels of ammonia, chromia, tin, or carbon. Nanotechnology is implemented to develop aerogel, which is a great insulator against extreme heat/temperature. Variations of Aerogel material are being developed. Green Earth Aerogel Technology, a Spanish start-up, has developed carbon aerogel from rice wastes and silica aerogel from rice husk ash. Aerogel is utilized as insulation for pipes, wires, paint additive (Protective coating), and fireproof coating.

Benefits of Aerogel


Hydromembrane by Luisa Roth-IAAC

Hydromembrane, a moisture-responsive material is an alternate inventive cooling system material. It is a composite and passive cooling material that transforms its structure when exposed to moisture. The structure transformation helps in regulating the interior heat of any space. It is an energy-efficient method in comparison to traditional ventilation and air-cooling systems. The deformation when exposed to moisture, increases moisture and evaporation rates resulting in cooling.

Benefits of Hydromembrane

10 Enthralling Visions For The Future Of Computing

For years, our personal computers were made up of monitors, keyboards, and a big beige box. Then laptops came along and changed everything—until a small, flat plate of glass encased in metal, dubbed the iPhone, showed up and changed everything again, followed shortly thereafter by an even larger plate of glass called the iPad that changed things even more.

As exciting as the iPad was, the original came to us five years ago. Today, we once again face major shifts in for computing. What will that future look like, both in the near term and the slightly further-off future?

Peering into that which hasn’t happened yet is a perilous business, but here are some new visions for computing that technology companies are rolling out soon—as well as a few radical, yet compelling dreams that are still years away from becoming tangible.

The near term Virtual reality

Soon, the real heavyweights of VR will make their long-expected debuts, bringing with them dedicated displays, positional tracking, and newly designed made-for-VR controllers.

The long-awaited Oculus Rift will finally show up by the end of March 2023, the SteamVR-powered HTC Vive is launching in very limited numbers by the time the holidays roll around, and at some point after both of those, Sony should release PlayStation VR, also known as Project Morpheus.

Virtual reality promises to change the way we play games, do business, train soldiers, and perceive the very world around us. For all that promise to live up to the hype, however, these kits need to be affordable. Right now all we can say is that Oculus might be priced affordably, the Vive’s room-scale experience probably won’t be, and we have no idea about the PlayStation VR.

Augmented reality

A close cousin of virtual reality, augmented reality is something we’ve been playing with on smartphones for years. The easiest way to think of the difference is that virtual reality immerses you in a 100-percent digital experience, while augmented reality creates a digital overlay on top of the physical world.

Further reading: Why virtual reality is better than augmented reality for gaming

Microsoft’s HoloLens captures the most attention in the augmented reality realm these days. The device may soon allow you to fight off Minecraft Zombies and Creepers coming at you from behind your couch. It will allow medical students to view a 3D model of the heart right in the middle of the classroom, help non-electricians successfully wire a broken lightswitch, and much more.

Microsoft isn’t the only company working on augmented reality. Another notable player is Magic Leap, a secretive start-up that is full of promises and short on specifics, while a team of former Valve engineers are working on CastAR.

Intel’s wireless future

PCs are great for gaming, getting working done, gaming, surfing the Internet, and gaming, but man they need a lot of wires. Intel hopes to reduce our dependency on little black tubes snaking around and under our desks with new wireless technologies—a wire-free future for the PC.

Intel’s been pushing WiGig, a standard for wireless gigabit data links currently supported by Dell and HP. WiGig can connect monitors, hard drives, and other peripherals to your PC sans cables.

Intel is also working on a method for wirelessly charging your laptop with a pad delivering up to 20 watts of power. We hope to see laptops charging wirelessly in 2023.

Perceptual computing

To move conceptual computing from trade show demos to real-life applications, however, PC users need the right equipment. That’s just starting to happen now with Windows 10 laptops and PCs loaded with RealSense cameras, which (among other things) team with Windows Hello biometric security to unlock your PC with your face—no password required.

Smartphone as PC

Blame it on Motorola’s (failed) Atrix, but the idea of your smartphone’s doubling as a PC when docked just won’t go away. But so far, all we’ve seen are smartphones that can slip into a customized desktop version of Android or a Chrome OS-like browser-based system when docked.

Nevertheless, the reality of a full desktop powered by a smartphone is now closer than ever, thanks to Microsoft’s work on a Windows 10 Mobile feature called Continuum. Continuum allows Windows 10 phones to display a Windows desktop-like experience when connected to an external monitor. You can also connect an external keyboard and mouse, or use the phone’s display itself to control the “PC.”


Canonical has a similar concept, where an Ubuntu smartphone can display a full Linux desktop when docked. The concept was first introduced for the crowdfunded Ubuntu Edge smartphone, which raised more than $12 million. Though it fell short of its $32 million goal, the dream didn’t die: Ubuntu phones that double as Linux PCs should roll out sooner than later.

Continuum, meanwhile, will show up on Windows 10 mobile devices later in 2023.

Wall computing

Microsoft’s dream of a wall-sized computer is alive and well. It’s not a new dream, however—the massive Perceptive Pixel display was something of a novelty that not many people besides Bill Gates ever used.

The Surface Hub will roll out in January 2023, four months after its original launch date of September 1, 2023.

Next page: Peering far into the future

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