Abstract:
the invention concerns a server for eventguided transactions in an open network for computer and telecommunication. The server has category interfaces for the categories service, application and customer, which open for communication to the server through an identification code called the roll code. Switching devices are connected to the communication interface, which with devices for logical determination of true or false for each application computer program decide if the switch is to connect a certain application computer program to a certain service module. An identification code device allocates each user a roll code and controls and updates the same at log-in. Indicators are controlled by drivers for graphical viewing on a screen, where the indicators according to the contents of the roll code through their indication show a specific event that demands attention.

Description:
TECHNICAL FIELD  
       [0001]     The present invention relates to a server for event guided transactions in an open network for computer and telecomununication, whereby the server has a categorisation for the categories service, application and customer for access to the server.  
       STATE OF THE ART  
       [0002]     In today&#39;s society companies are subject to an ever greater extent to domestic and global competition. In order to manage the hardening competition it is necessary to be the best for the products and services that they have to present to a market. Simultaneously the company should be able to present a wide product and/or service portfolio to its customers.  
         [0003]     A way to achieve the above is to integrate a company&#39;s service portfolio with partners and suppliers of services in order to let the different actors focus on that which is exactly their core business. Here the technical development through the Internet, wideband connection, ASP (Administrable Service Provider) solutions, etc, have created the prerequisites for entirely new types of contact points between different companies.  
         [0004]     For the new types of contact points there is no machine/device that in a general and effective way can integrate and handle contact points between different actors/companies among other things in order to ease and focus the companies&#39; business and to bridge geographic distances. Bridging geographic distances is not the least important in order to that the company not feel forced to establish business activities in large city areas without also being able to offer employment in rural areas.  
         [0005]     A field of operation that has made it possible for a company to concentrate on its core business is so-called “outsourcing/hosting” of necessary business that does not belong to the category core business. Here belong for instance postal, economics and accounting business, whereby for example the two last mentioned can be outsourced to a accounting office in order to make own operations more effective and facilitate focusing on the own end customer market.  
         [0006]     Observed problems with outsourcing of for example economic operations such as accounting are that they have been a relatively static line of trade. However, the market for economic and administrative services faces structural changes. Buy-ups and mergers between different accounting and auditors&#39; offices are in progress. Price-worthy customer administrative computer programs such as XOR, Hogia and SPCS ease the economic process a lot for the customer companies of accounting offices. This has also entailed that profitability in the traditional bookkeeping business has decreased. However, current technology and equipment does not sufficiently support rational methods of working between different actors as for instance in the economic operations customer company—computer program application supplier—auditors&#39; offices chain.  
         [0007]     A customer company for a computer program application supplier (application supplier) and auditors&#39; offices, where the auditors&#39; offices are also customers of the application supplier, experience technical and administrative problems in that: 
        Economic routines are a necessary evil     Small companies themselves work overtime in order to take care of economics     Relatively high competence is still needed to install IT solutions and administrative systems, which is a scarce commodity in small companies     Continual upgrades of own computer programs are a problem     Companies often depend on auditors&#39; offices to register the legal bookkeeping. This is even more true for follow-up and control of the economic situation     Companies have access to the Internet and to an ever greater extent also to wideband     Companies adjust requirements on control, security and correct management of outsourcing     Companies that grow are faced with the alternative of using their own personnel to man economics functions that earlier were carried out by an office     Companies with own economics personnel are sensitive to changes in personnel.        
 
         [0017]     Today many companies solve this through using personnel hiring companies for short term manning.  
         [0018]     Today bookkeepers&#39; and auditors&#39; offices face among other things the following problems: 
        A weakening market for simpler accountancy and a changed customer profile set new requirements.     They lack powerful and price worthy tools in order to integrate customer economics functions with their own IT systems     Buy-ups and mergers between different bookkeeping and economics offices change the competitive situation     Bookkeeping and economics offices should develop their service supply through offering administrative solutions, support, education, advising, etc     Office chains request machines/systems that allow shared information/databases and processes for several different types of actors/companies.        
 
         [0024]     Suppliers of economy application computer programs compete on a more and more global market. Suppliers require simpler handling of distribution and penetration of new markets. Distribution channels change and the suppliers that have flexible programs can present their programs on the Internet for instance in collaboration with ASP suppliers. On the Internet customer companies can thereby load and run applications and store computer program related information.  
         [0025]     However, today&#39;s application supplier lacks much of the total functionality that is needed in order to make the economic and administrative work of a company effective. However, this can be achieved through virtual integration of the functionality that exists in a number of different programs that today are the property of different actors such as service companies (accounting offices), computer program application companies and company hotels for computer programs. This means that a customer company tries to optimise the costs in its operations for management of IT and personnel and to focus on its own operations. However, what always remains is that someone in the company has total responsibility for the different administrative functions and for integrating auditing with reporting to the company&#39;s management.  
         [0026]     At present there exists a number of hosting/ASP solutions round certain ERP suppliers&#39; products (ERP; Enterprise Resource Planning), but no device or system that enables integration between an office and a customer company&#39;s process/routines. Neither is there any other device that integrates computer program applications.  
         [0027]     Altogether there is therefore a need to solve problems concerning auditors&#39; offices need of rational tools that make it possible to integrate operations and the collaboration between auditors&#39; offices and customer companies. An auditors&#39; office is in great need of tools to support its operational processes and to support customer companies in such a way as to make it possible to create new capabilities for effective collaboration. Suppliers of computer programs, for example economy computer programs, also require the tools that create simpler distribution channels and new markets.  
         [0028]     The international patent application WO 00/77707 shows how a financial consultant administrates a plurality of accounts with a server and a database.  
         [0029]     In WO 01/28 188 an auditing system that carries out accounting based on input activity information is described.  
         [0030]     U.S. patent application 2001/018674 A1 describes a global communication network for financial services.  
         [0031]     In order to solve the problems and needs described above IT technical solutions are needed such that the machines and system that realise them have a direct channel to customers that include the above mentioned customer companies and miscellaneous offices. Here it is desirable that a new actor be created in the market that takes on a role as an independent actor in the market, providing economy/administration computer programs to offices and their customer companies so that operations and processes are coupled together in an effective way.  
       SUMMARY OF THE DESCRIBED INVENTION  
       [0032]     In order to realise a solution on the above problems the present invention provides a server for eventguided transactions in an open network for information and telecommunication, whereby the server has category interfaces for the categories service, application and customer for access to the server. The server includes: 
        a device for storage of new application computer programs and updates of existing ones for transactions via the interface for the category application;     a partitioning device for a predetermined memory area in the server, which defines service modules for the interface with the category service;     a communication interface in the server for at least one application computer program for each and every one of the service modules;     a switching device connected to the communication interface, which together with a device for logical determination of “true” or “false” for each application computer program decides if the switch should turn on a certain application computer program for a specific service module;     a device that couples the category interface for service to a service module through the communication interface;     a device that couples the category interface customer to at least one service module through the communication interface;     an identification code device that allocates each user a roll code and controls and updates it when logging in, which includes at least parameters for category identification, receiver, service module identity and either degree of authorisation or corrective measure;     indicators that are controlled by drivers for graphical viewing on a screen, where according to the contents of the roll code the indicators through their indication make it possible to visualise a specific event that demands attention by a user corresponding to the parameter receiver in the roll code.        
 
         [0041]     In an embodiment of the invention the category interfaces also include a portal for access to the server.  
         [0042]     In another embodiment the application interface has total computer program transparency between users of service and customer interfaces in a module through the application computer program being coupled to the module with the service that the customer desires.  
         [0043]     An additional embodiment prescribes that each user of the service interface choose optional software for the respective module through an application device.  
         [0044]     Additionally the invention includes an embodiment where an update of an application and a new application are produced and initiated in an application device through the application interface, which frees module users from management of the update.  
         [0045]     Furthermore, an embodiment includes all applications being coupled to a single module via the logical states “true” or “false” through a single switch, whereby the state “true” couples the application to the module.  
         [0046]     Another embodiment includes that all modules are coupled to applications via the logical states “true” or “false” through a single switch for the respective application, whereby the state “true” for a module in the switch couples the application to the module.  
         [0047]     A further embodiment of the invention consists in a roll code including a data string in the form of fields. Another embodiment allows the field receiver in the roll code to include several receivers for a roll code that is used for access to the server through the application interface. Further, in one embodiment the field service module identity in the roll code includes the identity of several modules on access to the server through the application interface.  
         [0048]     In an alternative embodiment of the roll code ( 30 ,  40 ,  50 ) it is complemented with a field for each reference where multiple references are required for a field.  
         [0049]     Another embodiment includes the modules themselves being linked to databases where files common to customers and services are stored. 
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0050]     In the following in the running text there are references to the attached drawings for better understanding of the present invention according to the given examples and embodiments, whereby:  
         [0051]      FIG. 1  schematically shows a server according to the present invention;  
         [0052]      FIG. 2  schematically shows three versions of roll codes according to the present invention; and  
         [0053]      FIG. 3  schematically shows an embodiment of a roll code according to the present invention and its activation of indicators. 
     
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS  
       [0054]     The invention according to the present description concerns a device in the form of a server/computer for connection to an open network for computer and telecommunication such as the Internet and the like. In this respect the server has at least three categories of connection interface for use by its functions. These three categories are service, customer, application. The category service is put at the disposal of companies that offer a service such as an outsourced one to the category customer, whereby the category customer has access to the service. The remaining category application is put at the disposal of companies that offer computer applications such as software and hardware associated with software.  
         [0055]     The server will be further described in the following, but here information is provided about its unique properties in the form of providing the categories service and customer with a common choice of software through a common platform, so that transparency between information that is transferred between a customer company and a service company and vice versa is complete. Furthermore, via the application interface the server sees to it that service and customer companies receive a palette of relevant software included in the server and among which the service and customer companies choose their own combinations of them. In other words, the palette of software is the same at the service provider and at the customer to support. Furthermore, all along update of the software through the application interface is allowed without direct involvement of either the service or the customer company.  
         [0056]     The server will be described in more detail with reference to  FIG. 1 .  FIG. 1  shows schematically a server  10  connected to the Internet according to the present invention. In the present invention it is implicit that the invention can use several servers that are professionally connected to each other. The server includes a service interface  12 , a customer interface  14  and an application interface  16  to the Internet. The server  10  communicates internally via a bus  19  known to experts for addressing data and control instructions between units included in the server. Known such buses are for instance the Intel@ 845 (593 FC-BOA) chip, Intel@ ICH2 (360 EBOA) chip etc.  
         [0057]     CPU  18  in  FIG. 1  shows the processor(s) with motherboards, where the methods of operation are well-known by professionals in the technical field, for which reason it is not described in detail, but it is the characteristics supplied to the server  10  according to the present invention that are unique and innovative. In additional the server  10  consists of a memory area  20  including Module  1 -Module n, where n is a variable that gives the number of modules, which is determined by the number of service companies that use the service interface  12 . To the memory area  20  via the bus  19  is connected a device for partitioning  22  the memory area  10  into modules  1 -n.  
         [0058]     Block  24  in  FIG. 1  shows schematically the software SW that is used in order to control the new functions in the server  10  according to the invention and block  26  consists of a device, ID, that handles the identification code that the present invention uses.  
         [0059]     In block  28  are shown schematically the applications that are used by the different modules  1 -n, whereby applications are shown schematically as dotted blocks. Blocks O  1 -O n show switches for each of the applications APPL  1 -APPL n that decide which applications each of the modules Module  1 -Module n subscribes to or has access to. In one embodiment of the invention switches O  1 -O n have logical states for “true” or “false” with respect to each application APPL  1 -APPL n and their affiliations to each of the modules Module  1 -Module n. The logical states true and false can be represented binarily in a known way and for example with Boolean logic (algebra). Inverse logic is not excluded as a feasible part of the invention.  
         [0060]     In  FIG. 1  Module  1  subscribes to an application, APPL  1  through the switch O  1  whose logical state is true for APPL  1 . Module  2  subscribe to two applications, APPL  1  and APPL  2  through switches O  1  and O  2  that are set to true for the respective application. The last module Module n in a group of a predetermined number of modules subscribes to all three applications, APPL  1 -APPL  3  through switches O  1 -O n being set to the logical state true for this module, O n, where n=3 in this embodiment. In this example each of the switches O  1 -O  3  has been connected to an application APPL  1 -APPL  3 . It is nonetheless understood that a switch can be coupled to only one module and thereby have logical states for each of the applications. Other now known algorithms for making logical connections for the switch are not excluded according to the present invention.  
         [0061]     According to what  FIG. 1  shows the connections between the application switch module schematically have been drawn with dotted arrows in order to more easily visualise the connections and the communication. In reality this communication takes place through the bus  19 . The software or programs that are stored in block  24 , SW in  FIG. 1 , controls and monitors the functions in server  10  according to the present invention, which is not described in more detail, but which is considered to belong to what is known by a professional in the technical field. The software  24  controls the partitioning device  22  that partitions modules in the memory area  20 .  
         [0062]     The modules Module  1 -Module n are closed memory areas each of which is administrated by a service company with computer program applications to which customers of a service company with a specific module also have access, whereby total computer program transparency between customer and service company is achieved. The modules themselves can include links to databases where files for customer and service company are stored for common handling. However, the common handling is controlled by a roll code, which is described in the following.  
         [0063]     Yet another unique property that the present invention has is the roll code that each and everyone that logs in on server  10  is assigned. Here it has been denoted roll code because it identifies the role a user has at log-in on the server  10  via any of the interfaces  12 ,  14 ,  16 . The roll code, in addition to the usual log in process, can be different for each user or the same for some of the users in one of the interfaces service  12 , customer  14  and application  16 . In  FIG. 2  three versions of the roll code  30 ,  40 ,  50  are shown that in an embodiment of the invention consist of data strings including a field for each role in the code, where the data strings have at least have fields for category identity (K-ID), receiver (MOT), service module identity (TJMID) and one of degree of service interface authorisation (T-BG), degree of customer interface authorisation (K-BG) or degree of application interface authorisation (A-BG) and measure taken (ATG).  
         [0064]     In  FIG. 2  are shown three versions of the roll code, which are basically of the same design. The code  30  is for a user that logs in on the server  10  as a service category via the service interface  12 , i.e., a module administrator. The code  40  is used by a user that belongs to the customer category via the customer interface  14  and is a customer of a user in the service category and thereby also to a module. The last code  50  in  FIG. 2  is used by an application administrator via the application interface  16 .  
         [0065]     In the embodiment according to  FIG. 2  there are five fields in the roll code, which are denoted K-ID, MOT, TJMID, T-BG and ATG. Which interface a user belongs to is identified through the field K-ID. The next field MOT gives the receiver of a measure taken in the field ATG. The field TJMID shows which module is affected by the measure in the field ATG. This field is a little special for a user of the application interface as he or she occasionally needs to take measures that concern several of the modules Module  1 -Module n depending on which APPL  1 -APPL  3  in  FIG. 1  that require a measure to be taken. Therefore there is an embodiment of the code that underlies TJMID in the roll code  50  indicative of which modules are affected by an application measure. In this respect also the code underlying the field MOT can be used to address several receivers. It is also possible to take measures for each of the modules, whereby this embodiment of the field TJMID is not required.  
         [0066]     In another embodiment of the roll code  50  for the application interface  16  fields are expanded that require multiple references, for example for modules and for receivers with a field for such.  
         [0067]     In most of the embodiments of the invention when the server  10  modules are used by service suppliers in the same category of service a customer is only connected to one module and the same goes for service suppliers. However, this is not the case if the server offers services from several different kinds of category of company, where a customer can be connected to several modules in order to receive service from several companies.  
         [0068]     The roll code is analysed by the identity function in block  26 , ID, shown schematically in  FIG. 1 , preferably for each log on and log off through any of the interfaces  12 ,  14 ,  16 , whereby the roll code can at least be updated in the field measure (ATG) at log off depending on the measure or measures a user has taken after logging in. The category identity field in the roll code identifies which interface  12 ,  14 ,  16  has been used for logging in. The field for the receiver will be described in more detail in conjunction with  FIG. 3 . Here it can said that it is attached to a computer at one of the users in the different categories and depends on the measure taken. For a customer that logs in on any of the modules Module  1 -Module n, which belong to different service suppliers, the field service module field in the roll code module tells which module the customer has access to, which is the work area in the memory where a service supplier and customer have their tools for exchange of information.  
         [0069]     The three above mentioned fields for degree of authorisation (T-B G, K-BG, A-BG) give according to some known scale what measures each user is allowed to take in the modules and what concerns installation of applications, updating, etc. Finally what a logged in user has done in the server is given by a code in the measure field for the roll code.  
         [0070]      FIG. 3  shows schematically what the roll code does at a receiver for a measure that has been taken. In the figure indicator graphics for a receiver that is given in the receiver field in the roll code shows which measures have been taken and/or shall be taken. The indicator graphics have been filled with black colour for what has happened and will happen according to a certain pattern determined by the roll codes  30 ,  40 ,  50  depending on the receiver and measure in corresponding fields in the roll code. The indicator graphics can also indicate using other fields in the roll codes  30 ,  40 ,  50 .  
         [0071]     The graphics for the indicators  55  can preferably be realised on a computer screen via a portal  60  of the server  10 , which can be included in the respective interface  12 ,  14 ,  16 . Further, the indicators  55  can be equipped with text (not shown) in order to facilitate interpretation of what the indicators display through the roll code.  
         [0072]     The present invention as it has been described ties together processes, rolls, information and IT through internet based techniques that achieve a virtual integration of service, customer and application companies.  
         [0073]     It is the attached patent claims&#39; formulation that provides additional embodiments for a professional in the technical field.