If you try to focus, it will not be difficult to imagine the future of the Web. Just have some basic knowledge, a little imagination, a bit more adventure, we can find the answer. These include: It's a combination of NGI (Next Generation Internet) and Internet2 - The test of the interactive program smart - Improved user interface with voice recognition, and expanded connectivity towards wireless devices. That is the future of the Web - a combination of broadband access, multiple interfaces, access anywhere and of course comes with intelligent interoperability. The combination of NGI (Next Generation Internet) and Internet2 NGI is a research and development program of the Association of Specialized Agencies for the development of advanced networking technologies and revolutionary applications. The specifics of these capabilities have been made in the lab with end to end speeds up to 100 to 1000 times the current speed. The main difference between NGI and Internet2 is that the NGI is led and focused on addressing the needs of specialist agencies such as DoD, DoE, NASA, NIH and others while Internet2 is based on schools. But these two programs also have the common goal of developing advanced network infrastructure and developing advanced applications. At present, NGI and Internet2 are working together. NGI will be responsible for connecting the backbone network service (BNS). Internet2 is setting up gigaPoP to provide regional connectivity between universities and other organizations. This collaboration will contribute to a complete picture in which the interoperability of backbone, regional and local area networks on the basis of different vendors becomes more flexible and Throughout. Experiment with smart interactive programs So far, the Web can be considered as a huge information system connecting the database, the remote application to provide a variety of network services. While these services are increasingly geared towards users, the concept of smart applications on the Web is still in its infancy. How to put actors, smart applications and artificial intelligence programs on the Web? To solve this problem, explore some mysterious areas and face challenging questions such as: How smart are web applications today? Information Portals are the most complex applications on the Web today. In 1998, the first Internet portal wave became very popular. They provide users with highly personalized access points to enter the world of information diversity. These include MyYahoo (Yahoo!), NetCenter (by Netscape), MSN (by Microsoft) and AOL. Following this, Enterprise Information Portals (EIPs), also known as Corporate Portal, provide the ability to access information on the Intranet and the Internet. The Portal Portal extends beyond the distribution of information, and it is capable of integrating many separate processes and systems commonly used in enterprises. The Portal Portal can also use XML to integrate existing systems and provide an integrated access point to all of these processes. Furthermore, the EIP now works through modern artificial intelligence applications to perform search, aggregation and re-encapsulation functions for access centers. They connect applications like e-mail, groupware and other important applications. EIP is also in the process of evolving to become a much stronger hub through highly-modularized applications called Web services. Web services use standards, models, and mechanisms in XML to create the most complex applications today. However, if you consider an enormous amount of installation, troubleshooting and maintenance work to be incredibly hard, will you rank any of those stiff programs as really smart? So what is Web Intelligence? Intelligence is often associated with the ability to reason, solve problems, absorb information and give new ideas. In May 1997, IBM's Deep Blue supercomputer challenged world chess champion Garry Kasparov. This is the first time a computer has won a match against the best chess player in the world. After nearly 50 years of research in the field of artificial intelligence, people have achieved this success. Today, the Web consists of a vast number of data nodes (including text, images, audio, and video). Data nodes are linked together through hyperlinks that make up a super-network capable of executing complex ideas and concepts above normal levels. However, the Web does not currently perform many complex tasks with data. Web does not yet have some vital components such as the global database model, global error correction mechanism, or a logical layer protocol, or an adaptive intelligence algorithm. (Learning Algorithm). Therefore, the Web can continue to be improved and developed. How to make the Web "more intelligent"? The center of artificial intelligence is the process of "learning" and adapting. The learning structure is probably the most important issue of artificial intelligence, including behavior, perception, symbolic actions, and attainment of those goals. This shows that artificial intelligence software needs to be able to change and adapt. The challenge to artificial intelligence is the ability to learn to help people create new knowledge from original sources such as the Web. One of the challenges faced by the Web is the development of global consistency across an architecture that allows applications (using components that are specialized object-oriented software) to be coupled to so-called " application bus ", also known as Web AI service. The "learning" algorithm can be defined as the process of processing a set of data from a database called input, and after performing mathematical functions, it returns a statement indicating have learned. As the Web increases the percentage of applications and protocols involved in learning algorithms, we can expect improvements in both content and form. Web can become a smart network with AI and AI applications integrated with adaptive software languages and connected by Web services gateways. WHO. However, regardless of how AI applications are handled on the Web, the vital challenge will be the ability to set up accurate information. Processes must ensure the accuracy of the information and will include a form of registration and confirmation of information. Mobile Commerce products are now integrated with wireless enterprise portal. These products are designed to work effectively in an existing set of services and consumer products. The m-Commerce products range from automatic registration, shopping cart and catalog to e-wallet. The search path for the collection of applications for data on the Web is called the Semantic Web. The basic idea of semantic networks is the ability to solve the semantic problem of a particular node through a cycle until a node with the same operator is found. The Semantic Web, on the road to competition with AI Web Services, forms the basis of the Smart Web. Finally, whether the learning of the Web can be achieved from AI Portal or not, issues remain. The good side of the debate is the motivation for the experts to find the potential to address the current challenges. For example, the opportunities for wireless developers and Internet service providers will be expanded when they are able to reach mobile subscribers by developing infrastructure systems capable of supporting Support: any service provider, any wireless network (TDMA, CDMA, ...); any wireless device (pager, cell phone, PDA); any radio application, any web form (WML, ...); Any wireless technology (WAP, SMS, pager, ...), any environment (text, audio, text-to-speech, speech or video recognition). Attempting to achieve multifaceted interoperability is a challenge that requires highly competitive solutions that are able to reconcile proprietary standards (foster competition) with open standards. Multi-functional access capability. This process will achieve significant results in the next 5 to 7 years. Improves user interface and extends connectivity to wireless devices. Imagine your life in an environment called personal space. When you go to work, that space also follows you. If you look around this space, how many electronic devices can you see? How many wires are connected? With every electronic device open, you will have to add a pile of cables around you both at work and home. Wireless technology will add connections to these devices without the need for cables. Wirelessly connected devices will create a network infrastructure called the Wireless Personal Area Network (WPAN). Common applications of WPAN are in office space. The electronics in the network can be desktops, mobile computers, printers, handheld devices, cell phones, pagers, etc. The development of home appliances applications and smart will also use WPAN applications. WPAN also allows devices to work together, share information and services. For example, a Web page can be accessed on a small screen and can also be sent to a printer for full size printing via a wireless connection. As predicted, WPAN will allow users to customize the ability to exchange information, enabling everyday devices to be smarter and accessible whenever they are near the service gateway. The problem with today's wireless devices: low-resolution monitors, power and memory are limited and bandwidth is not enough. The computing environment in small mobile devices is not sufficient to run large operating systems and applications. Instead, distributed applications that enhance the data collection capabilities of individual devices are essential. Unlike desktop computers, small mobile devices use a wide variety of processors and operating systems and are programmed in a variety of languages. The solution to the output signal problem is the larger display. Larger spaces may come from flexible displays that can be folded open as maps. Plug in your pocket PC and you will have a good product. But the folding screen technology, which opens pocket-sized PCs is too early. Another solution is the "electronic ink" technology. However, this technology was recently developed in the laboratory. Another method is to keep the screen small but higher resolution combined with a magnifying lens mounted on the glasses. Sony's Glastron and Olympus Eye-Trek all have the same 132cm screen as the 2-meter view. 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The success of mobile communication technology lies in its ability to provide stable connections anywhere, at any time in a user-friendly way. The convergence of fixed information networks with mobile networks requires that quality and speed in the mobile environment be consistent with the fixed network. How to build a wireless broadband network is really a difficult question. In addition, the demand for high-speed services and the quality of voice transmission during roaming is a significant challenge for broadband wireless communications. Some of the recent technologies, such as HDML, WAP, Compact-HTML, and J2ME, have helped solve some of the bandwidth problems by reducing the amount of information through radio interfaces and new packet-switching technologies ( GPRS, CDMA, IEEE 802.11) is increasing the bandwidth through this wireless interface. The other problem is what to do when the mobile subscriber roams to another IP network. Mobile IP is the solution. There are also some technical issues that need to be addressed with Mobile IP, such as firewall. Mobile IP offers a simple and open global mobile solution, but lacks the support for fast delivery, authentication, real time positioning, and distributed policy management that mobile networks currently display. have. In contrast, the 3rd generation cellular communications system supports uninterrupted mobility but is built on a complex, connection-oriented network infrastructure that lacks flexibility, Openness is the strength of IP networks. Future wireless networks will be able to combine the advantages of these two types of networks and not inherit defects. This process will result in the next 3 to 7 years. Conclude The advanced features of the Web and Web access devices in the future will provide users with rich services of the type with unprecedented quality. Technology has been, and will serve people increasingly perfect. The world of networking in the not so distant future will be so much different from what you have seen. But do not be surprised as it is the inevitable result of the development trend of information technology in general and Internet technology in particular is happening very quickly today.
