Title of Invention

A DISTRIBUTED AUTO DISCOVERING NAME SERVICE FOR MULTIHOP WIRELESS AD HOC NETWORKS

Abstract The present invention relates to a naming service, used in a multihop wireless ad hoc network comprising a plurality of nodes, for associating user information with network information, such as identifying users, available services, and authority levels of users with a network addresses. The naming service automatically updates a database comprising such association information, when topological, infrastructure, or service changes occur.
Full Text Field of the invention
The present invention relates in general to a name service in a wireless ad hoc
network and particularly to a distributed auto discovering name service for
multihop wireless ad hoc networks.
Background of the invention
It is an increasing interest for developing and deploying wireless multihopadhoc
networks in several different application areas within commercial, private
installations, and for governmental purposes. The commercial applications of ad
hoc networks can for instance be used for hot spot installations during special
events. Hot spots are local areas where wireless access are provided for paying
customers so they can be in contact with a network, such as the Internet or a
private network. Private installations can be within a company or during a special
event.
The governmental applications can be during rescue operations within disaster
areas, military applications, or during special events.
A multihop wireless ad hoc network is built up by the nodes present since the
network actually is formed by the present nodes; an ad hoc network does not have
any central control function. The nodes all act as routers, routing traffic to other
nodes which is a similar concept as for fixed networks. However, the routing
protocol used in these types of multihop wireless ad hoc networks is often quite
different from the normal routing protocols used for fixed networks. The nodes
keep track of the other nodes by updating a routing table using the protocol and
there are mainly two different categories of routing protocols: reactive and
proactive. The reactive protocol reacts on the need of routing a message in the
network and updates the routing table paths on demand. The proactive protocol
updates the routing table on a regular basis.
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The term multihop is defined as using the nodes together building up the network
forwards messages and traffic not intended for themselves to other nodes able tocommunicate with the node until the data traffic reaches the intended node.
The existing solutions for multihop wireless network has knowledge about which
nodes are available and possible routing routes to the nodes part of the network;
however, there is a lack of knowledge about the users in the multihop wireless
network. The network infrastructure routing tables do not handle any naming
services.
Central domain name system (DNS) has a drawback in the fact that it is central,
this means that it is vulnerable as a single point of failure. During update of such a
central database, it may become unavailable for a certain period of time, thus
making traffic within the network impossible or at least difficult.
Summary of the invention
Accordingly the present invention according to a preferred embodiment preferably
seeks to mitigate, alleviate or eliminate one or more of the above-mentioned
disadvantages singly or in any combination.
This is done by a method for automatic name service discovery, which is
distributed to all nodes present in a network. A name service database is updated
locally in each node present in the network.
A first embodiment of the present invention, a method for associating user
information with network information in a multihop wireless ad hoc network
comprising a plurality of nodes is presented, comprising the steps of:
receiving data indicative of changes of user information;
updating a database stored in each node with entries associating the user
information with network information;
detecting in each node changes in the database; and
distributing from each node data indicative of changes of the user information to
nodes within radio range;
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In the method, the user information may comprise information about at least one
of user identifications, network addresses, available services within network, and
authority level of each user.
Another aspect of the present invention, a node in a multihop wireless ad hoc
network comprising a plurality of nodes is presented, comprising
a database for associating user information with network address; and
a service for responding to changes of user information; the user information
comprising at least one of users, network addresses, available services, and
authority levels;
wherein the service distributes the information changes to nodes within radio
range.
The service in the node may further update the information changes in the
database.
In yet another aspect of the present invention, a multihop wireless ad hoc network
comprising a plurality of nodes, together forming the network, wherein changes of
user information of the nodes are automatically distributed to all nodes within the
network and wherein the user information is a naming service for associating user
information with a respective network address.
The user information may further comprise information about available services
in nodes. The user information may further comprise information about authority
level of each user.
The at least one node within the network may be connected to a second network
and wherein the at least one node acts as a gateway between the network and the
second network; adapting user information in the network to usable information
in the second network.
In still another aspect of the present invention, an instruction set in a node in a
multihop wireless ad hoc network comprising a plurality of nodes is presented, for
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responding to changes of user information reaching the node, the instruction set
comprising:
an instruction set for detecting changes in a database, stored in each node,
comprising association information between user information and network
addresses;
an instruction set for updating the database with changes of user information; the
changes can be received from the node or other nodes; and
an instruction set for distributing changes in the database to nodes within radio
range.
Yet another aspect of the present invention is presented: a database in a node in a
multihop wireless ad hoc network, comprising entries for associating user
information with network information; changes of the database being updated and
distributed to all nodes within the network when changes in the database has been
detected.
In the database the entries may comprise at least one of user identification of each
user connected within the network and corresponding network address, available
services in each node, and authority level of each user.
Yet another aspect of the present invention is presented: an application in a node
in a multihop wireless ad hoc network using a database for finding a network
address of a user within the network when communicating with a certain user; the
database comprising entries for associating user information with network
information; changes of the database being updated and distributed to all nodes
within the network when changes in the database has been detected.
Yet another aspect of the present invention comprise a database associating user
information with network information for use when a mobile station in a packet
based network system connects to a private network using a virtual private
network function (VPN), wherein a VPN server contains one instance of the
database for each connected user, and the instances of the database are
automatically updated when changes of user information occur.
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Another aspect of the present invention comprise a database in a mobile station
associating user information with network information for use when a mobile
station in a packet based network system connects to a private network using a
virtual private network function (VPN), wherein each mobile station contains one
instance of the database, and each instance of the database are automatically
updated when changes of user information occur.
These and other aspects of the invention will be apparent from and elucidated
with reference to the embodiments described hereinafter.
Brief description of the drawings
In the following the invention will be described in a non-limiting way and in more
detail with reference to exemplary embodiments illustrated in the enclosed
drawings, in which:
Fig. l illustrates a network according to the present invention;
Fig. 2 is a schematic of a node in the network found in Fig. l;
Fig. 3 is a schematic of a method according to the present invention; and
Fig. 4 is a schematic of another embodiment of the present invention.
Detailed description of the invention
Fig l illustrates a multihop wireless ad hoc network or cell 10 according to the
present invention comprising, for example sake, a number of nodes l, 2, 3, 4, 5
part of the network 10. The number of nodes that can be part of the network is not
limited. The ad hoc network can in turn be connected to another network 12, fixed
or wireless, for example the Internet, through one or several nodes acting as
gateways. There is some type of routing protocol available for keeping a routing
table with knowledge about the different nodes available and there network
address information, as well as paths to gateways within the network.
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In this example, node l with a user named X has the desire to communicate with a
user named Y. In order to do this X needs to translate the user name, Y, to a
network address. Thereafter, the routing protocol will be able to find user Y in the
network. Finally communication is established between X and Y. The present
invention uses a method for updating a database comprising information about
available users and their network location (which is not the same as physical
location of course); associating user information with network information. Each
node continuously tracks traffic on the network in order to respond to changes in
the network configuration. Each node may be looking in a neighbor cache
available in each node, looking for neighbor topology changes. Such neighbor
cache functions may be for example an ARP (Address Resolution Protocol)
function in IPv4 or a Neighbor Discovery function in IPv6. These protocols keep
track of network hardware addresses for neighboring nodes.
Upon activation of the network, if a node discovers traffic on the network, it will
exchange information to the nearest neighbors, the information may comprise,
but not limited to, user information, address information, services available from
the node, or authority level. The different types of information will be discussed
later in more detail. The nearest neighbors obtain this information and store it in
their local database located in each node. They will also pass the information on to
their nearest neighbors and so on until equilibrium is reached and all nodes in the
network have updated their database. Thus all nodes may have the same data
about the network.
When the network has formed, the nodes will still keep track of traffic and look for
new users or new information available. If so, a new update stream will be sent to
the nearest neighbors again and the network will be updated in the same manner
as described above for the network activation situation.
When a first node sees a new node it will ask the new node for information. There
are two possible responses to this request:
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1.If the new node is using the method according to the present invention, the
two nodes will exchange information.
2. If the new node is not using the method according to the present invention,
no answer will come back to the first node, and the first node goes back to a
tracking mode: looking for new traffic in the network.
A node may be triggered to send out new information to the network by using an
internal trigger such as updating their own database with new information about
themselves, thus the system will be triggered and start a network update
transmission.
Optionally it is possible to configure the system to flood the network with
information in order to trigger a new update from the nearest neighbors or to
update the entire network. This ensures that the network has fresh and correct
information about users and available services. The flooding behavior may be
triggered if there has been a long time period without any information exchange in
the network or for the node, or it may be triggered on a regularly basis.
When applications (or users) desire to communicate with a certain user, the node
in question looks into the name service database and connects the user to a
network address, enabling traffic to be routed within the network to the desired
user.
A more detailed description about different types of information that could be
exchanged using the present invention will now follow. The two most important
information types are user name and network address. These provide the
possibility to find a route to a specific user. If a user logs out from a node and logs
into another node the network updates the database entries accordingly and it will
still be possible to route traffic to the correct user. The user information may
comprise at least one of name, user name, identification data, email address, IP
address in "Home" network, or other information relating to the user, such as
home address, telephone number or similar data. With "Home" network means a
network where the user belongs to such as, for instance, a private network or
company network. This may be a network where the user often resides in with
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user equipment but it may also be a network provided by a Service Provider (SP)
granting access for the user and charging the user for these services.
Other information that may be distributed is information about services provided
by a modem, such as a VoIP gateway (Voice over IP), Internet gateway, fixed
network services, infrastructure services, calculational services, database services,
and other such informative services. Information about authority level of a user
may be distributed using the present invention as well. This may be of interest for
instance in a military application or in a rescue application, where it may be
important to find a chain of command, a access level of databases available as
services in the network, and so on.
Advantages of the present invention include:
-No single point of failure, because all nodes have their own name service
database.
-Discovery of available nodes in the network is automatic.
-No central administration of the network is needed; each node may be
manually configured locally by the users.
-Data about all available nodes in the network is stored locally and may be
retrieved in one single operation (e.g. for use by applications).
The invention may be implemented in software using many different coding
approaches and run on a suitable calculational device, such as a microprocessor. It
may also be implemented in more hardware close environments, such as in an
FPGA (Field Programmable Gate Array), a DSP (Digital Signal Processor), or an
ASIC (Application Specific Integrated Circuit). These are non-limiting examples of
units or devices in which the present invention may be implemented.
Fig. 2 illustrates a device 200 acting as a node in a multihop wireless ad hoc
network. The device 200 may be a communicating device such as laptop, PDA
(Personal Digital Assistant), PC (Personal Computer), mobile telephone (e.g.
GPRS or 3G), or an application specific device for commercial, industrial, or
governmental processes or purposes. The device may comprise a processing unit,
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such as a microprocessor 201, controlling communication, calculations, and
similar operations, a storage unit, such as a memory (volatile or non-volatile), a
wireless interface unit 208 connected to an optional antenna 204, a
communication interface 203 handling communication specific processes, and
other units 205 to 207 for different processes, such as user interface, authorization
interface, or display unit.
Fig. 3 illustrates a method according to the present invention:
- receiving data indicative of changes of user information (301);
- updating a database with entries associating user information with network
information (302);
-detecting changes in the database (303); and
-distributing data indicative of changes of user information to nodes within
radio range (304).
Fig. 4 illustrates a second embodiment of the present invention in which the
present invention finds applicability on other networks apart from ad hoc
networks, for instance in when a mobile station connects to a infrastructure based
network, such as a WLAN (Wireless Local Area Network, e.g. hot spots or similar),
a GPRS, or 3G network. For example, nodes 401 to 403 in a GPRS or 3G network
are connected with an infrastructure 404 of the GPRS or 3G network. The
infrastructure 404 is connected with for instance the Internet 405 and the user
nodes establish a connection with a private network 408 through a VPN (Virtual
Private Network) link using a VPN server 406. The VPN server stores instances of
name service databases 407 each associated with the user connecting to the VPN
network.
Users may log into a VPN (Virtual Private Network) protected private network
408 using their GPRS or 3G equipment. They log in to the VPN network via for
instance the Internet or some similar public or semi public network (e.g. a
network provided by a Service Provider). In order to keep track of the users from
the private network and providing communication possibilities between users
logged into the private network, a naming service according to the present
10

invention is utilized. When a user logs out, a new user logs in, or any other new
information is available the name services in the private network are updated.
Each user logged in has a dedicated name service database 407 associated with the
user. This dedicated database 407 may be located in a server 406 associated with
the private VPN protected network or locally cached (not shown) in each node,
such as a PDA. A mobile station may be for instance a mobile phone, a laptop, a
PDA, or similar equipment used in mobile applications.
In this second embodiment the system is triggered for an update of information
using a similar method as for the first embodiment.
An interpretation interface or "translator" may be provided that can handle
interfacing to applications that is not normally designed to communicate in a
network using the present invention, i.e. a name resolution function for "legacy"
applications.
The name service database may communicate with an SNMP (Simple Network
Management Protocol) application in order to collect statistical data,
configurations, and so on, as well as being able to control and configure name
service databases remotely from a central view point.
A route export function implemented in a gateway may also be provided in order
to communicate between the multihop wireless ad hoc network and other
networks, such as a fixed network (e.g. Ethernet). This function acts as an
interpreter between the name service available in the ad hoc network according to
the present invention and standard routing and/or name service protocols
available in other networks, such as OSPF (Open Shortest Path First) protocol.
It should be noted that the word "comprising" does not exclude the presence of
other elements or steps than those listed and the words "a" or "an" preceding an
element do not exclude the presence of a plurality of such elements. It should
further be noted that any reference signs do not limit the scope of the claims, that
the invention may be implemented by means of both hardware and software, and
that several "means" may be represented by the same item of hardware.
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The above mentioned and described embodiments are only given as examples and
should not be limiting to the present invention. Other solutions, uses, objectives,
and functions within the scope of the invention as claimed in the below described
patent claims should be apparent for the person skilled in the art.
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We Claim:
1. A method for associating user information with network information in a
multihop wireless ad hoc network (10) comprising a plurality of nodes (l, 2,
3, 4, 5), comprising the steps of:
-receiving data indicative of changes of said user information;
-updating a database stored in each node (1, 2, 3,4, 5) with entries
associating said user information with said network information;
-detecting in each node (1, 2, 3, 4, 5) changes in said database; and
-distributing from each node (1, 2, 3,4, 5) data indicative of changes of
said user information to nodes within radio range;
2. The method according to claim 1, wherein said user information comprise
information about at least one of user identifications, network addresses,
available services within said network, and authority level of each user.
3. A node (1, 2, 3,4, 5) in a multihop wireless ad hoc network (10), comprising
- a database for associating user information with network address; and
- a service for responding to changes of said user information; said user
information comprising at least one of users, network addresses,
available services, and authority levels;
wherein said service distributes said information changes to nodes within
radio range.
4. The node (1, 2, 3, 4, 5) according to claim 3, wherein said service further
updates said information changes in said database.
5. A multihop wireless ad hoc network (10) comprising a plurality of nodes (1,
2, 3,4, 5), together forming said network (10), wherein changes of user
information of said nodes (1, 2,3,4, 5) are automatically distributed to all
nodes (1, 2, 3,4, 5) within said network and wherein said user information
is a naming service for associating user information with a respective
network address.
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6. The network (10) according to claim 5, wherein said user information
further comprise information about available services in nodes.
7. The network (10) according to claim 5, wherein said user information
further comprise information about authority level of each user.
8. The network (10) according to claim 5, wherein at least one node (4) within
said network is connected to a second network (12) and wherein said at
least one node (4) acts as a gateway between said network and said second
network; adapting user information in said network to usable information
in said second network.
9. An instruction set in node (1, 2, 3,4, 5) in a multihop wireless ad hoc
network (10) comprising a plurality of nodes (1, 2, 3,4, 5), for responding to
changes of user information reaching said node (1, 2, 3, 4, 5), said
instruction set comprising:
- an instruction set for detecting changes in a database, stored in each
node, comprising association information between said user
information and network addresses;
- an instruction set for updating said database with changes of said user
information; said changes can be received from said node or other
nodes; and
- an instruction set for distributing changes in said database to nodes
within radio range.
10. A database in a node (1, 2, 3,4, 5) in a multihop wireless ad hoc network
(10), comprising entries for associating user information with network
information; changes of said database being updated and distributed to all
nodes within said network when changes in said database has been
detected.
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11. The database according to claim 10, wherein said entries comprise at least
one of user identification of each user connected within said network and
corresponding network address, available services in each node (l, 2, 3,4,
5), and authority level of each user.
12. An application in a node (1, 2, 3, 4, 5) in a multihop wireless ad hoc
network (10) using a database for finding a network address of a user
within said network when communicating with a certain user; said
database comprising entries for associating user information with network
information; changes of said database being updated and distributed to all
nodes (1, 2, 3, 4, 5) within said network when changes in said database has
been detected.
13. A database (407, 409,410) associating user information with network
information for use when a mobile station (401, 402,403) in a packet based
network system (404) connects to a private network (408) using a virtual
private network function (VPN), wherein a VPN server (406) contains one
instance of said database (407, 409,410) for each connected user, and said
instances of said database are automatically updated when changes of user
information occur.
14. A database in a mobile station associating user information with network
information for use when a mobile station (401, 402,403) in a packet based
network system (404) connects to a private network (408) using a virtual
private network function (VPN) (406), wherein each mobile station
contains one instance of said database, and each instance of said database
are automatically updated when changes of said user information occur.
Dated this 19th day of July 2007.
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The present invention relates to a naming service, used in a multihop wireless ad
hoc network comprising a plurality of nodes, for associating user information with
network information, such as identifying users, available services, and authority
levels of users with a network addresses. The naming service automatically
updates a database comprising such association information, when topological,
infrastructure, or service changes occur.

Documents:

02686-kolnp-2007-abstract.pdf

02686-kolnp-2007-claims.pdf

02686-kolnp-2007-correspondence others.pdf

02686-kolnp-2007-description complete.pdf

02686-kolnp-2007-drawings.pdf

02686-kolnp-2007-form 1.pdf

02686-kolnp-2007-form 2.pdf

02686-kolnp-2007-form 3.pdf

02686-kolnp-2007-form 5.pdf

02686-kolnp-2007-gpa.pdf

02686-kolnp-2007-international exm report.pdf

02686-kolnp-2007-international publication.pdf

02686-kolnp-2007-international search report.pdf

02686-kolnp-2007-priority document.pdf

2686-KOLNP-2007-(03-06-2013)-ANNEXURE TO FORM 3.pdf

2686-KOLNP-2007-(03-06-2013)-CORRESPONDENCE.pdf

2686-KOLNP-2007-(12-08-2013)-ABSTRACT.pdf

2686-KOLNP-2007-(12-08-2013)-CLAIMS.pdf

2686-KOLNP-2007-(12-08-2013)-CORRESPONDENCE.pdf

2686-KOLNP-2007-(12-08-2013)-DESCRIPTION (COMPLETE).pdf

2686-KOLNP-2007-(12-08-2013)-DRAWINGS.pdf

2686-KOLNP-2007-(12-08-2013)-FORM-1.pdf

2686-KOLNP-2007-(12-08-2013)-FORM-2.pdf

2686-KOLNP-2007-(12-08-2013)-FORM-3.pdf

2686-KOLNP-2007-(12-08-2013)-FORM-5.pdf

2686-KOLNP-2007-(12-08-2013)-OTHERS.pdf

2686-KOLNP-2007-(12-08-2013)-PA.pdf

2686-KOLNP-2007-(17-06-2014)-ANNEXURE TO FORM 3.pdf

2686-KOLNP-2007-(17-06-2014)-CORRESPONDENCE.pdf

2686-KOLNP-2007-(19-02-2014)-CORRESPONDENCE.pdf

2686-KOLNP-2007-(30-04-2014)-ANNEXURE TO FORM 3.pdf

2686-KOLNP-2007-(30-04-2014)-CORRESPONDENCE.pdf

2686-KOLNP-2007-CORRESPONDENCE 1.1.pdf

2686-KOLNP-2007-CORRESPONDENCE 1.3.pdf

2686-KOLNP-2007-CORRESPONDENCE 1.4.pdf

2686-KOLNP-2007-CORRESPONDENCE-1.2.pdf

2686-KOLNP-2007-FORM 3-1.1.pdf

2686-KOLNP-2007-FORM 3.1.pdf

2686-kolnp-2007-form-18.pdf

2686-KOLNP-2007-OTHERS 1.1.pdf

2686-KOLNP-2007-OTHERS.pdf

abstract-02686-kolnp-2007.jpg


Patent Number 263827
Indian Patent Application Number 2686/KOLNP/2007
PG Journal Number 48/2014
Publication Date 28-Nov-2014
Grant Date 24-Nov-2014
Date of Filing 19-Jul-2007
Name of Patentee TELEFONAKTIEBOLAGET LM ERICSSON (publ)
Applicant Address S-164 83 STOCKHOLM
Inventors:
# Inventor's Name Inventor's Address
1 AXELSSON LEIF ASKIMS HÖGALID 20, S-436 51 HOVÅS
2 RIOMAR, HENRIK NYPONVÄGEN 55, S-448 47 FLODA
PCT International Classification Number H04L 12/26,H04Q 7/38
PCT International Application Number PCT/SE2004/002038
PCT International Filing date 2004-12-29
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 NA