DE10100229A1 - Information search, information matching and information provision based on dynamic routing and address systems in network content-dependent dynamic DNS - Google Patents

Abstract

1. A method and technical system for dynamic information routing in distributed networks. 2.1 Target-oriented dynamic automatic routing of information requests to the information sources pointing in distributed networks by transparent use of the DNS protocol. The above permits significantly more effective and direct information access than with conventional search engine technology. 2.2 A dynamic address assignment of information sources using the domain identification from the third level domain is achieved by the replacement of current DNS servers whilst retaining the DNS protocol. The modified LUAR DNS service thus delivers meaningful addresses according to the knowledge base and application example, independent of whether the above are different return addresses for the identical request, or whether the most likely desired address for an unknown request is delivered. 2.3 The method and system are particularly suitable for localised, personalised, decentralised information networks (Internet, Intranet, eCommerce), search services for application therein and planned load balancing .

Description

This invention relates to a method and a technical system for address resolution of Information and this dynamically content-specific to an information request with the aim the establishment of distributed information networks. The invention is used to determine Addresses of information used to provide dynamic routing of Enable information flows and targeted access to information. To do this different possibilities of information search, information matching and Combined provision of information. This results in the above-mentioned title of the invention.

Any abstract information (e.g. pizza) in the application of the invention an identical or similarly structured address, such as B. a computer in today's Internet. In the The type of information addressing according to this invention is an alternative Method for currently addressing content on the Internet using URL. The new system can also be used in addition and together with URL addressing become. With the invention some concrete realizations in the field of application of distributed information clusters and fuzzy information and target terms.

The technical starting point of the system is the standard protocol used today for the determination of computer addresses in TCP / IP networks DNS (Domain Name Service). The basic one advanced view of the new system is that in the information society is an address an "information" is sought. In other words, there is a need for information and the address of the appropriate know-how carrier (wise man) who needs the information is sought can cover. To this end, the information seeker expresses his wish in his own conceptual world (its names) and to the best of its knowledge, and then receives the Address (or addresses) of the "wise men" who are familiar with it. As with today's DNS Computer addresses can do this completely transparently for the end user. This notices consequently nothing of this address request of his request for information, but will  directly to the "wise man" (to his address). This is the same as in today's DNS, where the connection is established with the computer whose name you have entered. Setting up the first implementation variant of this method on the existing DNS Protocol is an integral part of this invention, since it already with the introduction in This protocol of the DNS installed worldwide can be used directly. For the This ensures complete transparency on the client side, which means this system from the start to all users of DNS (e.g. all users of the Internet) as potential users of the system To be available.

The new system in implementation variant 1 (LUAR version 1) thus becomes like a standard DNS server used, only that this server addresses to "information requests" instead of Computer names determined. This is possible due to the fact that the saying aptly describes: "Names are just noise and smoke". Whether the name of a DNS request as in The protocol provided is actually a computer name, cannot be determined and, consequently, can can be any name and thus also describe any information. The Extended implementation variant 2 (LUAR version 2) requires an extension of the DNS Protocol to localization and personalization functionality to get it out the resulting dependencies with DNS in a transparent manner for all other systems to be able to. In implementation variant 1 (with standard DNS protocol) are used for localization and personalization either enhancements to the functionality of the "wise men" or the DNS information request must be supplemented by the necessary parameters, what an increased knowledge of the user or access via an upstream application (e.g. HTML Side) required.

The invention exemplifies two technical forms as systems Realization as a single system, in which the functionality within a single system is realized and secondly the realization via the basic system and a separate one Knowledge management system (Knowlege Base), which serves as an example for the Realization of the invention by means of distributed knowledge management systems.

The invention enables due to the dynamic address assignment by means of knowledge management Systems also build a targeted long-term load distribution (load balancing) without complex additional hardware in the information services and without the redirect that is frequently used today Methods.

The invention can be used in addition or in combination with other technical systems Information search and provision, e.g. B. Internet search engines and HTTP request based methods are used.

Disadvantages of the prior art

The so-called Domain Name Service (DNS) for determining the Network address (IP address) of a computer used from its domain name. This is a global standardized protocol, which is based on a hierarchical server structure worldwide and performant the determination of an IP address for a certain computer name and vice versa allows the determination of the computer name to the IP address. Today's technical DNS However, systems are based on a static resolution of computer names to IP addresses. For every name (eg "garfield.dlconsult.de") is a fixed IP in the configuration of the DNS server Enter the address in the configuration file (zone file). So the computer name must first fixed and configured. The system is currently used only for the determination of Computer addresses used for computer names and domain names and not for Determination of "information addresses" in the sense of the invention. At the lowest level of DNS Hierarchy (the server that provides the final address) is how static works for  the scope of the invention in knowledge management in distributed networks Exclusion criterion if you consider the computer address as a "knowledge address" synonymously and equates the computer name with a "knowledge label". Today's DNS system for such a purpose would be an exact, clearly predetermined knowledge label in the "Zone File" to determine the "Know How" bearer (knowledge address), what in the No meaningful use permitted. With that are the current DNS systems not suitable for solving this changed task. Your technical limit will be at static domain names such as B. "alles-gute-zu.weihnachten.md" reached.

According to the internet today, the state of the art is the address of a Information from their URL (Uniform Resource Locator), which is basically according to the view forms that information is on a computer and there about a certain access can be achieved. As a result, there is a URL <Type identifier <<Computer name <<Information path <<Information <. That one can get one Information needs to know a "computer name", makes from the new perspective of the Invention makes no sense at all. Why do you have to have a computer name for information know? The invention assumes that this is not necessary and is too complicated for users. For this reason, the oath realizes a new way of "information address" on the basis of common ones Terms of information using the standard for terms of Domain names as syntax for entering labels.

The URL always designates exactly one "information unit" (e.g. HTML page on the Internet) and no wise man who knows about the field of knowledge. So that's it Not very likely to find the information you really need with a URL high if you do not know from previous calls or information (additional information), that exactly the information you want can be found there. Every further attempt, the one you want Finding information may require completely different URLs, which do not follow any logic result. This dilemma has led to the emergence of today's Internet search engines. They try to compile the possible URLs for a content accordingly. This Access through search engines, which can also be viewed as a kind of "way" is the current search for the information address system according to the URL scheme. However, the user must enter the address of the first "wise man" (the URL of the search engine) already know and visit them. Then the user must formulate his request correctly and wait for the results and evaluate them yourself. Then the user will hopefully choose them correct URL from the result list and then ends up with the desired information. This Procedure currently leads to the fact that the really required information is distributed Information network (e.g. Internet) based on URL and search engines only from fewer and fewer people can be found with ever greater effort. The system can be used in the not yet manage the information flood sensibly.

Furthermore, the state of the art in the area of provision and presentation dynamic content, as well as the load distribution and performance increase in Information services of the Internet based on so-called HTTP request procedures recourse. The respective URL or method is the entire URL including some parameters of the request. Common to these procedures is that too the relevant knowledge carrier "Wise" has already been addressed. The In this case, the request is already directed to a computer in the information network and cannot generally put to the distributed system (disadvantage of this prior art) like this done by means of the invention with LUAR. This is with the "wise men" according to the conceptual world of this Equate invention. This "wise man" is now able to use known HTTP Request-based procedures to provide the information and thus provides an example of a combination of LUAR with existing procedures in the overall network of a distributed Information system. Specifically, these HTTP request-based methods include Technology of "virtual" servers of all common HTTP servers, some procedures of  Load distribution using HTTP requests, request redirection procedures (e.g. to Accellerators like the "Reverse Squid") and Personalization and Process Localization based on the evaluation of parameters, parts and properties of the HTTP Requests. Furthermore, HTTP request-based systems have already been Request addressed technical system a "bottleneck" or "single point of failure", in terms of scalability and reliability, even in systems from a single source (an information provider) can have a negative impact. These systems are particularly unsuitable for globally distributed information services from any information provider using any technical systems for the "wise men". These systems are particularly dependent on the HTTP Protocol.

State of the art are also various common methods for load distribution, these are attributable to short-term operational load balancing. From the technical systems "Load balancers" are the respective possible provider systems in their workload and Availability is monitored and orders are distributed accordingly and then executed. Long-term planned distributions are usually based on a "redirect" process of corresponding HTTP requests, or based on IP addresses. This long-term Methods do not cover the load distribution based on a dynamic DNS service.

Object of the invention

The object of the invention is to automatically for information requests (information requests) to determine the associated information address. The technical system of the invention enables Integration of decentralized information in distributed networks regardless of the technology of the respective information system and the respective information provider. The system uses the existing standard Internet protocols to ensure quick dissemination and optimal To enable use. Therefore, the existing and established system of the DNS protocol used to determine the network addresses of computers for this information purpose and expanded, the technical internal functional sequence in the sense of the invention replaced becomes. In addition, the technology is expanded in such a way that even a dynamic blurred Request to DNS server depending on the context of the request can be processed and the dynamic resolution of the request to the network address of a corresponding "know-how" carrying computer ("Wise Men"). This extension enables dynamic Information systems based on distributed systems using existing worldwide Realize DNS structure. This enables a new way of addressing and thus the Distribution, search and provision of information. This represents a completely new one Technical information access to the content of distributed systems, such as that of the Internet, which offers some significant advantages over conventional addressing via URL. This technical procedure thus represents an optimal supplement to the distributed content access While URLs are the address of a single piece of concrete information (information atom) represent the invention of the LUAR (Local Universe Address Resolution) Addressing information units (suitable amount of information that consists of several URL can exist - also information group). These information units are provided by the appropriate "wise men" provided. The LUAR invention provides the addresses of these Wise ready.

The knowledge management on which the dynamic address decisions are based is flexible expandable and administrable. It supports the integration of various existing ones Decision-making systems based on different criteria. Existing can do this Systems from the market and your own can be combined to personalization, localization, Synonym handling, multilingualism, fault tolerance and targeted long-term Support load balancing. Furthermore, there are logical links in the Contents according to the respective technical status taken into account. The system can be used with known systems and methods of content search, content delivery  and load sharing combine and support common dependent and independent Decision-making processes for the provision of information. In particular, LUAR is using the "HTTP request" dependent personalization, regionalization, content search and deployment as well as the request redirect and the load distribution can be combined and use in addition and in combination with existing Internet search engine technologies.

The system can also be implemented as a much faster hardware solution and in existing ones Integrate network components. This makes sense because the computational effort of Determination of a dynamic information address is much higher than with current ones static DNS systems.

Technical solution to the task

The invention is using and expanding the existing standardized DNS protocol realized and can thus be directly instead of a conventional one in the first implementation stage Use DNS server.

A DNS server of the last hierarchical level (which ultimately performs the resolution) viewed the behavior from the outside as a "black box" (for the relevant case) when asked for a computer name of the type:
[<X-level domain. "]. . [<Third-level domain '.] <Second-level domain <. <Top-level domain <
return the network address (IP address) of the computer assigned to this name (e.g. 192.168.241.15), which it determines from this entry in the "Domain" and "Zone File" specifications. The solution of the invention in implementation variant 1 is achieved by changing the technological process between the request and the return value. Instead of searching for the request exclusively from "domain" and "zone files", a dynamic knowledge management system is queried, which determines a suitable know-how carrier for the request and the network address (IP address) of the "wise man's computer""returns. This address is then returned to the requesting server, just like any previous result of a query to a DNS server. In order for the existing information systems with their integrated DNS requests to function as before, the information request for the invention in implementation variant 1 must correspond to the syntax of a domain name. This results in an inquiry:
[<X-th sub-term. "]. . [<Main term. <-] <second-level domain <<top-level domain. "

example

schnell.chinesische.vorspeisen.kochen.local-universe.com

The so-called "second-level" and "first-level" domain details are defined and will be internationally unique to natural and legal persons. These lay in the technical The DNS server used for address resolution is also fixed. At least two DNS Servers are determined centrally when the respective domains are assigned. If the specified DNS server is LUAR-capable, according to the invention all other domain levels of the DNS Request according to the rules of domain names used for information requests become.

The knowledge management system involved can be implemented in a variety of ways. Just as in the simple case certain information of the request can be ignored any intelligent information system (knowledge base) used to find results become. This is discussed in more detail in the example system.

As a result, the address of the information system (IP address) is returned, which the Can provide information on the specific request or can provide qualified help. (This System that is addressed by the address and provides the information is called  Inscribed "Weiser").

This takes the qualitative leap from determining a static computer address to one dynamic information address instead of the standardized DNS protocol.

In implementation variant 2 of LUAR, the DNS protocol is expanded by some functions that are helpful for transparent personalization, regionalization and further flexibility, but which require the support of this extended protocol by the client-side applications, whose development is not in the hands of the Inventor lies. The extensions to the protocol therefore correspond to two concrete changes. On the one hand, the request with the domain name is supplemented by an additional piece of information, a property vector. The request is no longer just:
Give me the IP address for the following domain name:
[<X-level domain. "]. . [<Third-level domain '.] <Second-level domain <. <Top-level domain <
respectively.
[<X-th sub-term. "]. . <[<Main concept. "] <Second-level domain." Top-level domain <
instead, there will also be a property vector for the query e, which contains properties with the associated values. This results in the request variant:
Give me the IP address for the following domain name:
[<X-level domain. "]. . [<Hird-level domain '.] <Second-level domain <. <Top-level domain <
taking into account the properties:
[<Property1 << separator property / value << value <]. , . [<Separator properties <<PropertyX << Separator property / value << Value <]

The property vector can z. B. can also be built according to XML syntax. (see current XML standardization).

The second extension of the protocol optionally offers the return of a result list (instead of the previous individual value) of addresses, with or without an indication of the weighting (Hit accuracy) for each address in the return list. A support of this extended Functionality through applications is only to be expected if there is a specific form this solution is defined as the standard.

As implementation variant 2 only becomes relevant in a medium to long-term period Scope can be used (due to necessary standardization and Application development on it), the expanded functionality of personalization, Regionalization and parts of the burden and task distribution over combinations of Realization variant 1 and the use of known "HTTP request" methods on the Information systems, the "wise" realized. The following process follows. The LUAR The system receives the request for information and determines it with the help of knowledge management Systems (Knowledge Base) the currently associated address of the information system "Weisen", which holds this information. The application then turns to HTTP requests with the same domain name to the determined address of the wise man. This Domain name, which is the original. Requires information is now added all other parameters of an HTTP request are evaluated by the "wise man" and from this the possible further specializations of the information determined. To do this stand the respective Information system "Wise" also other specific information about his own system (or system group) are available.

A short, concrete example is this combination:
The request for the information "pizza.hawai-or-calzone.local-universe.com" is made by entering exactly this "domain name" as a URL in a WWW browser (e.g. Internet Explorer). The LUAR system, which is used at "local-universe.com" instead of a conventional DNS server, receives the request for the address to "pizza.hawai.local-universe.com" from this WWW according to the DNS standard browser. The LUAR system determines from its knowledge base that it is a question of "eating out" and the Italian food pizza, specifically referring to the two types of pizza "Hawaii" or "Calzone". The LUAR system uses this to determine the address of the relevant information service and returns it to the WWW browser. The WWW browser now sends its request "pizza.hawai.local-universe.com" to this address. Additional parameters are also supplied with an HTTP request, or are optionally and transparently supplied for the user. Assuming that the system with the WWW browser is a GPS-capable system, the GPS position, e.g. B. from Berlin and a user identification is also available in the HTTP request. The "wise man" (information system) breaks down the HTTP request and its parameters into the individual components and compiles the required information. "Pizza.hawai.local-universe.com" prompts the wise man, e.g. B. compile all Hawaii and Calzone pizza offers from Berlin (a specific region around the GPS position of the requesting client). If the user identification is known to the system, in the case of a subsequent order, e.g. B. at a pizza delivery service, the delivery address can be determined automatically.

This application example shows at least one possible implementation variant for HTTP Requests-based information services are also functional in LUAR implementation level 1 To reproduce the properties of LUAR implementation level 2. In the LUAR implementation level 2 Personalization and localization can already take place in the LUAR and are therefore in identically for services not based on HTTP requests (e.g. TCP / IP services such as ftp, telnet, ssh etc.) are available.

Another short example illustrates the application of the LUAR for planned, targeted and longer-term load distribution in distributed information systems. The dynamic skills of the LUAR also allow the system according to the information in the Knowlege Base Determination and return of different addresses on the same request. So if too For the purpose of load balancing, there are several systems that provide the same information can, it does not matter to the user of information which system ultimately the Provides information. The LUAR Knowledge Base contains information about these systems with the same information and its utilization in the past and therefore delivers after one accordingly, the process is variable, determines or randomly each of the other possible addresses. According to the DNS standard, these addresses remain external for up to 48 hours Client systems receive until they inquire again at the LUAR for the current address. As a result, a longer-term, specifically planned distribution of the system load can be achieved with the system on the information systems. For short-term peak loads or short-term failure of a system cannot be reacted to with this technology. But it is a supplement to existing technologies of load distribution are best suited, since the load distribution hereby without Communication overhead and system dependencies across a wide range of networks can be done.

Another important application variant of the invention is the combination of LUAR with any search engine technology that exists today. B. for Determining URLs on the Internet is understandable as a "wise man" (information service of the distributed information network) to understand. This "wise man" knows himself in one or more Information areas. If the LUAR determines this "wise man" for an information request, its address is returned. The request of an application, e.g. B. a WWW browser is thus sent to the address of this sage and in this special case to the search engine  / Search service sent. This request contains, for. B. hei HTTP requests also the concrete Information request with all relevant terms as already available to the LUAR stood. In contrast to the DNS protocol, protocols such as HTTP provide additional ones Information (e.g. all parameters of the HTTP request, such as user identification or Position information), which is further qualified by the search engine Content search can be used. In this case, a search engine can automatically and immediately perform the qualified search without the need for additional user input. This also makes sense to the extent that specialized topic-specific search services have a have more qualified knowledge on this topic than in the LUAR Knowledge Base can be managed. This two-step search is therefore for special information, e.g. B. technical and scientific topics and keywords an effective and meaningful variant. Two Examples, a technical global and a local one are intended to illustrate this application.

The request to the LUAR for "performance.apache-oder-squid.local-universe.com" is provided by Address of a "wise man" who returns a specific search engine to "Internet Open Source Software ". The WWW browser (eg Internet Explorer) sends an HTTP request with "performance.apache-oder-squid.local-universe.com" to this address. The search engine can now e.g. B. automatically all names before the "second-level domain" (everything before "local- universe.com ") and automatically search like" performance AND (apache OR squid) ". Without having to enter anything, the user now receives from the Search engine or the search service the result list displayed.

The "local" example shows the use of additional parameters of the HTTP request, whereby in the Example it is assumed that the GPS position of the requesting user from the HTTP Request is visible and this is currently in Berlin. The LUAR receives z. B. the request "mitarbeiter.sozialamt.local-universe.com" and determines the address of the Information search service about city administrations. This information search service determines from the GPS position the region "Stadt Berlin" and automatically performs the search query "infotype = employee, department = social welfare office, region = city, name = Berlin" and delivers the List of employees of the social welfare office back from Berlin. This example shows the complementary. Possibilities of information routing via this two-level search hierarchy and the possibilities and benefits for users with these automatic information flows multiple search technologies. Without LUAR and GPS localization, the above request is global Unthinkable scale. Note: The same local information can be the same worldwide Request can be used (see properties LUAR). What else you specific for in every city If URLs need to know, which is rather rare, especially when newcomers move, an inquiry worldwide is sufficient. You don't even have to do this in a specific language, without errors or with exact know given terms.

The contained separate representations of the sample application for the future Information service "Local Universe" describes further concrete detailed solutions in detail.

Advantages of the invention

• - The information search can be done directly using natural terms.
• - The information search can be carried out immediately and directly, without first having to do so Information service must be sought.
• - The existing standard protocol of the DNS for the determination of computer addresses can with the Invention for information address resolution can be used. So that the system can without technical changes on the user side (client side) can be used immediately.
• - The addresses of information distributed by a wide range of information providers worldwide can be done in a simpler and more intuitive way than via URL (Uniform Resource Locator) (Standard address of content on the Internet) can be determined.
• - The use of the invention enables a transparent determination of the address for the user  Information. Therefore, the user can directly access the content. He doesn't get it first Presented lists from which he should determine himself what could be the right result.
• - The addresses of the information can be determined dynamically, with different Aspects such as B. Localization and system and network loads flexible in the decision can flow in.
• - Any combination of terms can be combined to describe the content.
• - The system is largely language independent. Information terms can thus be equivalent in different languages can be entered.
• - It is also not possible to make 100% correct inquiries (e.g. inquiries with spelling errors) get answered
• - Corresponding queries (synonym queries) can be answered. (e.g. via thesaurus functions)
• - Client-specific information for the determination of the query result can be considered (e.g. for personalized localized DNS - A same request from Europe or America different results are assigned)
• - A multitude of different inquiries can be aggregated to a common result become.
• - The information services ("Wise Men") themselves can use any technology in many different ways Wisely and completely independently.
• - Various types of information services can be integrated into the system at any time without to make changes to the respective information service itself.
• - Information services from any information provider can be integrated.
• - The basic LUAR system and the LUAR knowledge database can be used as both Compact system or can be implemented as separate systems.
• - The knowledge base can also be a distributed system with several separate components will be realized. Systems from can be connected to the interface of the knowledge database connect different manufacturers.
• - It is no longer necessary to have all the information on the DNS server in the "Domain" and "Zone files" configured, but can be developed in one or more separate knowledge bases and deployed without having to reconfigure or restart the actual LUAR server to have to.
• - Information search systems based on the DNS protocol can be set up what allows faster and more effective options than conventional ones currently in use Search engines based on URL.
• - All search queries and dynamic computer accesses can be bookmarked directly and do not have to be in separate search query forms can be entered.
• - Possibility of integrating search queries for information with and without logical Links already in the domain name.
• - Targeted long-term load balancing based on dynamic DNS can be planned and be carried out, which results in an optimal addition to existing load distribution systems.
• - The LUAR can be implemented both as a hardware system and as a software solution.
• - Results from decisions made by the Knowlege Base are for quick processing and Performance optimization cacheable.
• - In the case of software implementation, the effective solution can be via "multithread" capable servers Processes are applied.
• - In the case of hardware implementation, the system can be integrated into corresponding network components become.
• - The resulting results of the technical process of the content-dependent address determination enable the "wise men" (information nodes in the distributed network = system with the LUAR determined address) the combination with other HTTP request based procedures for personalization, localization, load balancing, content search and content delivery.
• - An effective combination of LUAR with conventional search engine technology is  possible. The "wise" is then the corresponding information-specific search engine that on the basis of the preselection (the request has reached her) and the separation of the terms of the request in the domain name, can directly perform the topic-specific search without the user must enter or trigger something additional.
• - The knowledge database is not exclusively LUAR-specific and can therefore also be used by other services (e.g. also the "wise men") can be used. So the information is just to maintain once, but can be used as desired ("edit once - use anywhere").

Name of the example

"Dynamic Local universe address resolution" - dynamic content-dependent DNS system for information search and information matching

introduction

The sample application is first shown in two graphical overviews described in detail below. "Local Universe" is a future information network with local information and information access (including the search) via the URL (e.g. "Italienisch.essen.local-universe.com"). The "dynamic Local Universe Address Resolution "as an independent module to the DNS server" BIND "and this DNS server (Open Source Software) modified so that it has this new functionality Uses address resolution.

description

The aim of the international localized information service is to achieve the same Content area worldwide at the same address. I enter "pizza.local-universe.com" in Berlin, I get all pizza services in Berlin. I enter the same URL in London I get that from London. For scalable systems, this means depending on the location of the request another computer and therefore another IP address is returned. This Functionality is achieved through "spatial search" (spatial search, position search) of the Knowlege Base realized. Often the user does not know the "correct" term that is expected to be entered. He asks B. with the same wish for "italian.essen.local-universe.com". The same Request should lead to the same result and thus to the same information address. This The synonym database (a kind of special thesaurus) takes on the task. Also a Spelling mistakes in the request, does not change the user's wish and should if possible do not lead to an error (e.g. "pizzza.local-universe.com"). To do this, the module of the blurred Full text search used.

As a result, no application is made in the application of the "Local Universe Resolution" (LUAR) Computer name, but content searched. The use of the dynamic LUAR, together with The Knowledge Base therefore forms a completely new type of search engine. A Information is searched using a URL and the request is made transparent to the user forwarded the computer, which knows about the requested information. In addition, the Modified open source DNS server "BIND". All DNS requests to this modified DNS Servers are forwarded to the "mod_luar" module, which has fixed connections to a Daemon (server process - "luar daemon") of the Knowlege Base builds up and holds. With that already resolved queries can be answered quickly, an additional hash  Tables based fast cache managed ("luar_cache"). The "luar daemon" is that Server application that has the appropriate logic of searches in the knowledge base manages and executes. The resulting IP address is then sent to the "mod_luar" (client) of the DNS server returned and the DNS server delivers this result address to the requesting computer back.

The Knowledge Base itself is based on a web-based administration interface based on the "Java Server Page" technology managed and maintained. The WWW server is in SSL encrypted mode operated, so that the maintenance of the knowledge database from outside the Intranet of the company can be done. This means that the knowledge base can be managed decentrally. The "Apache" WWW server and the JSP- Engine "Jakarta-Tomcat" used. For performance reasons, all developments of the LUAR-Systems itself ("mod_luar, luar-daemon, luar_cache") in the programming language "C" realized and translated with the "gcc" compiler under Linux.

The computer addresses (IP addresses) themselves are currently in the area of "Synonym Relations" saved and can be expanded flexibly and differently via the administration interface be assigned. This is a dynamic expansion of the computer network managed by "Know How" carriers possible.

Since currently only LUAR of implementation variant 1 (standard DNS protocol) is transparent in Existing Internet is supported by the applications, before all the functions of the "Spatial Search" module by the information services ("Wise Men") themselves using the HTTP requests can be realized, which is disadvantageous for the local fault-tolerant scaling of the Overall service is, but will only be corrected with LUAR implementation variant 2.

Claims (11)

1. Information search, information matching and information provision based on dynamic routing and address systems in networks - content-dependent dynamic DNS (Domain Name Service) = Local Universe Address Resolution (LUAR) is known from the current state of the art and the standard protocol of the Domain Name Service ( DNS) based on "zone files" (configuration files) with fixed (pre-defined) computer names or domain names. This is the standard address resolution in TCP / IP networks, today's Internet. The behavior of the DNS server towards the requesting server is retained in exactly the same way. "Request in the syntax of a domain name" - "Return an IP address of an associated computer". In the subclaims, HTTP-based methods for localization, personalization and load distribution by the information services ("ways") are integrated according to the current state of the art in the method combinations.
The Knowlege Base works for full-text searches, spatial searches, for indexing and for the administration of information and knowledge using state-of-the-art methods. The implementation of the administration interface is also based on the current state of the art.
Method and a technical system for address resolution of information in distributed information systems, characterized in that this is done dynamically and content-specifically for an information request, in order to enable dynamic automatic routing of information flows and targeted automatic access to information. An important part of the information request is already contained in the domain name. 2. The method according to claim 1, characterized in that the dynamic determination of the Addresses of information and information services using and expanding the existing standardized DNS protocol. 3. The method according to one or more of claims 1-2, characterized in that the Information searches are carried out directly using natural terms and in different languages can. 4. The method according to one or more of claims 1-3, characterized in that the Information can be searched immediately and directly, without first having to do so Information service must be sought.   5. The method according to one or more of claims 1-4, characterized in that the Addresses of the information are determined dynamically, with different aspects such as z. B. Localization and system and network loads can flow flexibly into the decision. 6. The method according to one or more of claims 1-5, characterized in that combine any combination of terms to describe the content. 7. The method according to one or more of claims 1-6, characterized in that a Many different requests can be aggregated to a common result. 8. The method according to one or more of claims 1-7, characterized in that Targeted load distribution based on the information description about the Information addresses are planned and carried out. 9. The method according to one or more of claims 1-8, characterized in that a automatic information search based on the preselection and / or the separation of the Terms in the domain name, directly as a topic-specific search, without the User has to enter or trigger something additional. 10. The method according to one or more of claims 1-9, characterized in that Search engines of any technology can be integrated into the information search can. 11. The method according to one or more of claims 1-10, characterized in that Searches for information with and without logical links already in the Domain name can be specified.