GB2488754A

GB2488754A - An intermediary server to bi-directionally convert the format of requests/responses between mobile devices and information sources

Info

Publication number: GB2488754A
Application number: GB1103187.9A
Authority: GB
Inventors: Forbes Hamilton
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-02-24
Filing date: 2011-02-24
Publication date: 2012-09-12
Also published as: GB201103187D0

Abstract

A server 100 for one or more mobile devices 104 comprises a hub 106 and a translator 108. The hub 106 is able to connect to an information source 102 and to a mobile device and is configured to relay information between the information source and the mobile device. The two-way translator is configured to format information received from the information source 102 into a form compatible with the mobile device and to format information received from the mobile device into a form compatible with the information source. In use, a user of the mobile device is able to access the information source. This means that an application ("app") running on a mobile device can access information on the remote server using the versatile and rich internet-based interface provided by the application. The server uses a method of serving an information source to one or more mobile devices and may make use of a computer readable storage medium encoded with instructions that perform all or part of the method. The mobile devices may be smart phones or tablet computers and connected via wired or wireless connections. The underlying transport format may be the subject of the format translation (conversion) or information related to the data (e.g. metadata). The information sources may be Enterprise Resource Planning (ERP), Customer Relationship Management (CRM), Contract Management or Asset Management resources, for example accessed using SQP or relational database language and the mobile device may require conversion by the intermediary server to Java Script Object Notation language to be compatible.

Description

I

Mobile Server The present invention relates to a server for connecting a mobile computing device, such as a tablet or a smart phone, to a large information system, in particular a server that translates protocols running on the mobile computing device into a form suitable for protocols running on the large information system, and vice versa.

Efficient operation of large information systems, such as those for Enterprise Resource Planning (ERP), Customer Relationship Management (CRM), Contract Management, Asset management, etc, which integrate and synchronise internal and external information across an entire organization, is dependent on the interface between users and the system.

Mobile computing, particularly tablet computers and smartphones fitted with solid-state drives and wireless communications, provide a versatile and rich internet-based interface perfect for a user almost wherever they are located.

However a user cannot access a large information system using a mobile computing application (app") because the programming language running on a smartphone, tablet computer or the like is not compatible with the language of the larger machine running the large information system.

According to a first aspect of the invention, there is provided a server for one or more mobile devices comprising a hub and a translator, in which the hub is able to connect to an information source and to a mobile device and is configured to relay information between the information source and the mobile device. The translator is configured to format information received from the information source into a form compatible with the mobile device, and to format information received from the mobile device into a form compatible with the information source. In use, a user of the mobile device is able to access the information source. This means that an application ("app") running on a mobile device can access information on the remote server using the versatile and rich internet-based interface provided by the application. It is perfect for a user almost wherever they are located.

Preferably the hub is configured to relay information comprising a transport protocol specific to the information source and/or mobile device. This means that the hub can be configured to communicate with software running on the mobile device and/or the information source, which in turn means that the user can connect to the information source via the hub.

Preferably the translator is able to format information relating to the underlying transport format. This means that access protocols running on the mobile device can be converted into access protocols running on the information source, and vice versa, which in turn means that a user is able to access the information source.

Preferably the hub is configured to relay information comprising data to the information source and/or mobile device. This means that the hub can be configured to relay data between the mobile device and the information source, which in turn means that the user of the mobile device can obtain and transmit data from and to the information source via the hub.

Preferably the translator is able to format information relating to the data. This means that data formats utilised by the mobile device can be converted into data formats running on the information, and vice versa, which in turn means that a user is able to access data contained in the information source.

Preferably the hub is connected to the mobile device via a wireless connection. This means that the mobile device can be in a remote location.

Preferably the hub is connected to the information source via a wireless connection. This means that the hub can be in a remote location.

Preferably the wireless connection is a wireless internet connection. This means that the user can connect to the hub at any location where there is a wifi or similar network.

Preferably the wireless connection is a mobile network connection. This means that the user can connect to the hub at any location where there is a cell phone or satellite phone signal available.

Preferably the hub is connected to the information source via a wired connection. This means that the hub can be located in a secure location, or physically close to the information source.

Preferably the mobile device is a smart phone. This means that the user can conveniently access the information source by employing a device the user already utilises for other communication purposes.

Preferably the mobile device is a tablet computer. This means that the user can conveniently access the information source by employing a device having a conveniently sized display.

According to a second aspect of the invention, there is provided a method of serving an information source to one or more mobile devices comprising the steps of: connecting a hub to the information source; connecting the mobile device to the hub; configuring the hub for relaying information between the information source and the mobile device; translating format information received from the information source into a form compatible with the mobile device; and translating format information received from the mobile device into a form compatible with the information source; wherein in use a user of the mobile device is able to access the information source. This means that an application ("app") running on a mobile device can be served information from the remote server using the versatile and rich internet-based interface provided by the application. It is perfect for a user almost wherever they are located.

Preferably the step of configuring the hub comprises configuring the hub to relay information comprising a transport protocol specific to the information source and/or mobile device. This means that the hub can be configured to communicate with software running on the mobile device and/or the information source, which in turn means that the user can connect to the information source via the hub.

Preferably the step of translating format information comprises translating format information relating to the underlying transport format. This means that access protocols running on the mobile device can be converted into access protocols running on the information source, and vice versa, which in turn means that a user is able to access the information source.

Preferably the step of configuring the hub comprises configuring the hub to relay information comprising data to the information source and/or mobile device. This means that the hub can be configured to relay data between the mobile device and the information source, which in turn means that the user of the mobile device can obtain and transmit data from and to the information source via the hub.

Preferably the step of translating format information comprises translating format information relating to the data. This means that data formats utilised by the mobile device can be converted into data formats running on the information, and vice versa, which in turn means that a user is able to access data contained in the information source.

Preferably the step of connecting the mobile device to the hub comprises connecting the mobile device to the hub via a wireless internet connection. This means that the mobile device can be in a remote location.

Preferably the step of connecting the hub to the information source comprises connecting the hub to the information source via a wireless internet connection. This means that the hub can be in a remote location.

Preferably the wireless connection is an internet connection. This means that the user can connect to the hub at any location where there is a wifi or similar network.

Preferably the step of connecting the hub to the information source comprises connecting the hub to the information source via a wired connection. This means that the hub can be located in a secure location, or physically close to the information source.

According to a third aspect of the invention, there is provided a storage medium encoded with instructions that, when executed by a processor perform: relaying information between an information source and a mobile device; translating format information received from the information source into a form compatible with the mobile device; and translating format information received from the mobile device into a form compatible with the information source; wherein in use a user of the mobile device is able to access the information source.

This means that an application (app") running on a mobile device can be served information from the remote server using the versatile and rich internet-based interface provided by the application. It is perfect for a user almost wherever they are located.

Preferred embodiments of the present invention will now be described, by way of example only, by reference to the accompanying drawings, in which Figures 1 and 2 show a schematic of information flows in a server connecting to an information source and a mobile device.

Figure 1 shows a server 100 connected between an information source 102 and a mobile device 104. The server 100 comprises a hub 106 and a translator 108. The server 100 makes it possible for disparate information systems, such as those for Enterprise resource planning (ERP), Customer Relationship Management (CRM), Contract Management, Asset management, etc, to be accessed by remote users. Users typically require specific information held within the information system, and the application on the mobile device 104 is focused on the role of the user. The invention is an interface 100 between the mobile device 104 and the information source 102 which takes information provided by the user and converts it into a form the interface 100 can use to interrogate the information source 102, information provided by the information source 102 is then converted into a form for transmission back to the mobile device 104. The information source 102 contains information required by the user, who wants to access the information using an application running on a mobile device 104. The information source 102 may take further action as a result of receiving the information.

The hub 106 receives information from one system and passes it on to another system; in the arrangement shown in Figure 1, one system is the information source 102, and the other system is a mobile device 104. The hub 106 provides a set of standard format requests for information from the database associated with the information system 102 and collates it ready for the mobile device 104.

Once connected to the mobile device 104 there is an appropriate handshake to define what information is to be received and then server 100 passes the requested information to an application running on the mobile device 104 which is designed specifically to meet the role requirement of the user.

The translator 108 interconverts transport protocol information relating to the information source 102 and the mobile device 104. The underlying transport protocol on the information source 102 may be SQL/relational database, for example, and the protocol relating to the mobile device 104 may be Java Script Object Notation. The data format information relating to the information source 102 and the mobile device 104 includes information on the shape of the data, ie the core information blocks. The translator 108 packages information into a format that will allow any mobile device 104 to pick receive it and use the provided information in a format that the application on the mobile device 104 can use.

The translator 108 thus translates the process-based output from an information source 102 so that it can be interpreted by a similar process based application on a mobile device 104.

This translation process is two-way, allowing information generated in the application running on the mobile device 104 to be passed back to the information system 100 in a format that can be recognised.

Unlike Remote Desktop Connections and Terminal Server solutions which create virtual connects inside the network containing the information system 102 and use a standard or specific client of the information source 102, the server 100 will provide information outside the domain and will provide information specifically to a native application on the mobile device 104.

This process is two-way with information on the mobile device 104 being moved back to the information system 102 as well as from the information system 102 to the mobile device 104.

This means that through the server 100, information from any system 102 can be moved to a mobile device 104, processed and then moved back to the system 102. The server 100 thus provides a two way highway of pertinent information from the information source 102 to the mobile device 104 such that a user can access either live using 3G or Wireless networks or in a cached format where a network is not available.

Functionality built into the server 100 enables it to be configured to interrogate any information source 102 and reformat the data such that it is correctly configured to be interpreted by an application running on a mobile device 104. This two-way conversion allows original data, generated in the mobile device 104, to be transferred back to the server where it is translated into a compatible format for the information source 102 and transmitted to the information source 102.

Figure 2 shows information flows in which the server 100 is situated in a CLOUD computing environment or in a corporate environment.

Server 100 executes a method of serving an information source 102 to one or more mobile devices 104. One aspect of the method includes connecting a hub 106 to the information source 102 and connecting the mobile device 104 to the hub 106.

Another aspect of the method includes configuring the hub 106 for relaying information between the information source 102 and the mobile device. 104 A further aspect of the method includes translating format information received from the information source 102 into a form compatible with the mobile device 104; and translating format information received from the mobile device 104 into a form compatible with the information source 102.

The method allows a user of the mobile device is able to access the information source.

In various embodiments, server 100 includes a processor and a memory. The processor (e.g. a microprocessor) is configured to read from and write to the memory. The processor may also comprise an output interface via which data and/or commands are output by the processor and an input interface via which data and/or commands are input to the processor.

The memory stores a computer program comprising computer program instructions that control the operation of the server 100 when loaded into the processor. The computer program instructions provide the logic and routines that enables the server 100 to perform at least some of steps of the methods disclosed above and illustrated in Figures 1 and 2. The processor by reading the memory is able to load and execute the computer program.

The computer program may arrive at the server 100 via any suitable delivery mechanism.

The delivery mechanism may be, for example, a computer-readable storage medium, a computer program product, a memory device, a record medium such as a Blue-ray disk, CD-ROM or DVD, an article of manufacture that tangibly embodies the computer program. The delivery mechanism may be a signal configured to reliably transfer the computer program.

The server 100 may propagate or transmit the computer program as a computer data signal.

References to computer-readable storage medium', computer program product', tangibly embodied computer program' etc. or a controller', computer', processor' etc. should be understood to encompass not only computers having different architectures such as single /multi-processor architectures and sequential (Von Neumann)/parallel architectures but also specialized circuits such as field-programmable gate arrays (FPGA), application specific circuits (ASIC), signal processing devices and other devices. References to computer program, instructions, code etc. should be understood to encompass software for a programmable processor or firmware such as, for example, the programmable content of a hardware device whether instructions for a processor, or configuration settings for a fixed-function device, gate array or programmable logic device etc. The steps illustrated in the Figures 1 and 2 may represent steps in a method and/or sections of code in the computer program. The illustration of a particular order to the steps does not necessarily imply that there is a required or preferred order for the steps and the order and arrangement of the steps may be varied. Furthermore, it may be possible for some steps to be omitted.

Claims

Claims 1. A server for one or more mobile devices comprising: a hub able to connect to an information source and a mobile device, the hub configured to relay information between the information source and the mobile device; a translator configured to: format information received from the information source into a form compatible with the mobile device; format information received from the mobile device into a form compatible with the information source; wherein in use a user of the mobile device is able to access the information source.
2. A server according to claim I in which the hub is configured to relay information comprising a transport protocol specific to the information source and/or mobile device.
3. A server according to claim 2 in which the translator is able to format information relating to the underlying transport format.
4. A server according to any preceding claim in which the hub is configured to relay information comprising data to the information source and/or mobile device.
5. A server according to claim 4 in which the translator is able to format information relating to the data.
6. A server according to any preceding claim in which the hub is connected to the mobile device via a wireless internet connection.
7. A server according to any preceding claim in which the hub is connected to the information source via a wireless connection.
8. A server according to claim 6 or claim 7 in which the wireless connection is an internet connection.
9. A server according to claim 6 or claim 7 in which the wireless connection is a mobile network connection.
10. A server according to any of claims I to 7 in which the hub is connected to the information source via a wired connection.
11. A server according to any preceding claim in which the mobile device is a smart phone.
12. A server according to any preceding claim in which the mobile device is a tablet computer.
13. A server substantially as described herein with reference to the accompanying drawings.
14. A method of serving an information source to one or more mobile devices comprising the steps of: connecting a hub to the information source; connecting the mobile device to the hub; configuring the hub for relaying information between the information source and the mobile device; translating format information received from the information source into a form compatible with the mobile device; and translating format information received from the mobile device into a form compatible with the information source; wherein in use a user of the mobile device is able to access the information source.
15. A method according to claim 14 in which the step of configuring the hub comprises configuring the hub to relay information comprising a transport protocol specific to the information source and/or mobile device.
16. A method according to claim 15 in which the step of translating format information comprises translating format information relating to the underlying transport format.
17. A method according to any of claims 14 to 16 in which the step of configuring the hub comprises configuring the hub to relay information comprising data to the information source and/or mobile device.
18. A method according to claim 17 in which the step of translating format information comprises translating format information relating to the data.
19. A method according to any of claims 14 to 18 in which the step of connecting the mobile device to the hub comprises connecting the mobile device to the hub via a wireless internet connection.
20. A method according to any of claims 14 to 19 in which the step of connecting the hub to the information source comprises connecting the hub to the information source via a wireless internet connection
21. A method according to claim 19 or claim 20 in which the wireless connection is an internet connection.
22. A method according to claim 19 or claim 20 in which the wireless connection is a mobile network connection.
23. A method according to any of claims 14 to 20 in which the step of connecting the hub to the information source comprises connecting the hub to the information source via a wired connection.
24. A method according to any of claims 14 to 23 in which the mobile device is a smart phone.24. A method according to any of claims 14 to 24 in which the mobile device is a tablet computer.
25. A method substantially as described herein with reference to the accompanying drawings.
26. A computer readable storage medium encoded with instructions that, when executed by a processor perform: relaying information between an information source and a mobile device; translating format information received from the information source into a form compatible with the mobile device; and translating format information received from the mobile device into a form compatible with the information source; wherein in use a user of the mobile device is able to access the information source.