FORM – 2
THE PATENTS ACT, 1970
(39 of 1970)
&
THE PATENTS RULES, 2003
COMPLETE SPECIFICATION
(See section 10 and rule 13)
SYSTEM AND METHOD FOR PROVIDING UNIQUE 3-DIMENSIONAL
ADDRESSING CODE
Applicant(s):
GENESYS INTERNATIONAL CORPORATION LTD
73-A, SDF-III, SEEPZ, ANDHERI (E), MUMBAI-400 096, INDIA
Inventors: 1) Dr Aniruddha Roy 2) Ashitosh Prabhu
The following specification particularly describes the invention and the manner in which it is to be performed.

SYSTEM AND METHOD FOR PROVIDING UNIQUE 3-DIMENSIONAL
ADDRESSING CODE
FIELD OF THE DISCLOSURE
[0001] The invention generally relates to unique 3-dimensional addressing code, and in particular to a system and method for providing unique 3-dimensional addressing code.
BACKGROUND [0002] subject matter discussed in this background section should not be assumed to be prior art merely as a result of its mention herein. Similarly, any problems mentioned in this background section or associated with the subject matter of this background section should not be assumed to have been previously recognized in the prior art. The subject matter as disclosed in this background section merely represents different approaches related to apparatuses for hypothermia therapy, wherein such apparatuses themselves may also correspond to implementations of the claimed technology and invention.
[0003] Maps are visual abstract representation of the earth or the portion of the earth. These are symbolic representation of real-world objects, regions or themes on a given scale which are generally published in paper form but now also available as web-map-service. Our real world is in three dimensional (3D) whereas the maps generated by various agencies are by and large in two dimensions (2D). All of the property held by an individual or legal entity can be termed as Asset. In real world situation, any physical entity likes roads, Buildings, Utility are the physical assets. Accurate identification of the position of any asset situated in any location of earth is normally provided through the coordinate system depicting the latitude, longitude and the elevation values.

[0004] Our earth is geoid is shape (almost round) and maps are flat, getting information from a curved surface to a flat one involves a mathematical formula called a map projection, or simply a projection. This process of flattening the earth causes distortions in one or more spatial properties like distance, area, shape and direction. No projection can preserve all these properties, as a result, all flat maps are distorted to some degree. However, there is a choice to select the projection system that best fits the suitability for representing a particular area of the earth's surface and by its ability to preserve distance, area, shape, or direction. Some map projections minimize distortion in one property at the expense of another, while others strive to balance the overall distortion.
[0005] There are two types of coordinate systems: geographic and projected. Geographic coordinate systems use latitude and longitude coordinates on a spherical model of the earth’s surface. Projected coordinate systems use a mathematical conversion to transform latitude and longitude coordinates that fall on the earth’s three-dimensional surface to a two-dimensional surface. Each data source stores the parameters that define its coordinate system as an integral part of its data. However, those parameters can also be stored in separate files so that they can be used with data for many different projects. For the purpose of this invention the EPSG:3857 Spherical Mercator projection coordinate system has been used.
[0006] The government of India guidelines of geospatial policy allows the Indian Entities, whether in Government or outside, will be free to acquire, collect, generate, prepare, disseminate, store, share, publish, distribute, update, digitize and/or create Geospatial Data, including Maps, of any spatial accuracy within the territory of India including underwater within its territorial waters by using any Geospatial Technology, subject to regulations on attributes in the negative lists.
[0007] On-site spatial accuracy of one meter for horizontal or Planimetry and three meters for vertical or Elevation has been allowed for any entity whether Indian or foreign.

[0008] With advent of modern tools and technologies now it is very easily possible to generate 3D maps from stereo satellite datasets, aerial images and LiDAR point clouds. Through photogrammetric techniques as well as processing of the LiDAR datasets accurate elevation values for the earth’s surface can be generated. The digital surface model of Indian territories can be extracted from any location.
[0009] Several codes are available in the industry to denote the location of any building or an asset with a unique code. Majority of the codes represents the two dimensions. However, with the release of the Guidelines for acquiring and producing Geospatial Data and Geospatial Data Services including Maps by the Department of Science and Technology, Government of India.
[0010] In patent application EP1049309A2 discloses a method for address mapping in a home entertainment network system includes receiving a self-identification packet; extracting a bus identifier and a physical identifier from the self-identification packet: adding a new row to an address mapping table, the new row comprising a bus identifier field, a physical identifier field, and a node unique identifier field; inserting the physical identifier and bus identifier into the respective bus identifier and physical identifier field in the new row of the address mapping table; transmitting a read request packet to a node identified by the self-identification packet; receiving a read response packet, the read response packet comprising a node unique identifier; extracting one or more identifiers from the read response packet, the one or more identifiers including a node unique identifier; and inserting the one or more identifiers into additional fields in the new row of the address mapping table. However, the prior art fails to focus Unique Asset Identification code is for the territory.
[0011] Therefore, there exists a need to provide a Unique Asset Identification code for the territory in which from the zone number the broad identification of the Asset location to identify based on the direction.

OBJECTIVES OF THE INVENTION
[0012] It is an objective of the invention to provide a Unique Asset Identification code is for the territory of a country in which from the zone number the broad identification of the Asset location is identified based on the direction
[0013] It is an objective of the invention to provide a codification of the sub zones is provided into 5x5 matrix grid system taking each of the English alphabet. O has not been used as it gets confused with the numeric digit Zero.
[0014] It is an objective of the invention to provide a numeric digit without using O from getting confused with the numeric digit Zero.
[0015] It is an objective of the invention to provide the last three alphanumeric character represents the elevation or altitude of the Asset as derived from the Digital elevation model.
[0016] It is an objective of the invention to provide the last three alphanumeric character represents the elevation or altitude of the Asset as derived from the Digital elevation model.
SUMMARY [0017] The present invention discloses a system for generating a 3D model, the system comprising: a processor; and a memory storing instructions for execution by the processor, wherein the hardware processor is configured by the instructions for: executing an artificial and machine learning module comprises: obtaining a 360 degrees’ view of an equirectangular imagery; creating an annotated dataset from the equirectangular imagery; training a street furniture models for instance segmentation from the annotated dataset; accessing a 3D model accuracy of segmented dataset, if the

accuracy of the 3D model is increasing then save the 3D model and perform instance segmentation, the accuracy is reduced then the dataset is sent back to the step of the creating annotated dataset till the accuracy in predetermined range is achieved of the 3D model; masking results of the 3D model in a pre-defined threshold; generating a ray from a car position to masked pixel from an overlay point cloud with imagery and a car GPS sensor information; and extracting a coordinate point cloud data to obtain the 3D model of all street assets.
[0018] In an embodiment, the artificial and machine learning module further comprise: collecting a mobile LiDAR point cloud; identifying the LiDAR point cloud files via an overlapping imagery; and overlaying the LiDAR point cloud with imagery via combining the identify LiDAR point cloud files via an overlapping imagery and the mask results of the 3D model.
[0019] Further, the datasets from the street level mobile mapping systems fitted with 360-degree panoramic imaging camera set a are processed, extraction of the attribute details of the urban features from the street corridors including signages from the buildings/ shop signages are a mammoth manual task. This process of capturing the datasets are automated.
BRIEF DESCRIPTION OF THE DRAWINGS [0020] The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate exemplary embodiments and, together with the description, serve to explain the disclosed principles.
[0021] FIG. 1 Illustrate showing a boundary extent of country map with Zones and subzones, in accordance with some embodiments of the present disclosure. [0022] FIG. 2 Illustrate the boundary extent of a country with the grids showing numeric values of 4 Zones, in accordance with some embodiments of the present disclosure.
[0023] FIG. 3 illustrates a flowchart showing a Unique Asset Identification code for the territory, in accordance with some embodiments of the present disclosure.

DESCRIPTION OF INVENTION [0024] Exemplary embodiments are described with reference to the accompanying drawings. Wherever convenient, the same reference numbers are used throughout the drawings to refer to the same or like parts. While examples and features of disclosed principles are described herein, modifications, adaptations, and other implementations are possible without departing from the spirit and scope of the disclosed embodiments. It is intended that the following detailed description be considered as exemplary only, with the true scope and spirit being indicated by the following claims.
[0025] Embodiments of the disclosure relate generally to the field of geodesy pertaining to artificial intelligence and machine learning through interpretation of the real world coordinate values. More particularly, embodiments of the disclosure relate to a system, method and system for generating and assigning unique 3 dimensional (3D) addressing code to a real world asset.
[0026] The present invention relates to system and method for Assigning a Unique Identification Code to an Asset with 3D elevation values which will operate in an online as well as offline 10 computer system to show a unique asset codes of any real world object position at a grid size of 1sq mt in in the territory of India. The system provides an intelligent and fully automated system, which may generate the Positional data comprising of the Latitude, longitude and elevation/depth of a point or its x, y & z co¬ordinates in the territory of the Republic of India in the form of a unique code by clicking any position of a map of India in the computer system be it in desktop or 15 in a mobile device.
[0027] In an embodiment, a real-world object both natural and manmade are located on earth. Further, there real-world objects are identified through a positioning techniques. Further, the location of real-world object on any point of a map in Web Mercator sphere system is used in meters along with an elevation value in a Digital Elevation Model (DEM).

[0028] Further, the generic DEM normally implies x/y coordinates and z-values of the bare-earth terrain, void of vegetation and manmade features. Further, a Digital Surface Model (DSM) actually provides the elevation of the surface like the height of the buildings or trees or electric pole or telecom tower. Any elevation values of less than 1 mt or above/ below has been considered as zero.
[0029] Further, the present invention focus on generating a 13-digit code to describe any portion of the territory of a country with a least count of 1 sq. 10 mt having a unique asset identification code and represented by the elevation value.
[0030] FIG. 1 illustrates showing a boundary extent of country map with Zones and subzones (100), in accordance with some embodiments of the present disclosure. The map is divided into four equal parts. FIG. 2 illustrates the boundary extent of a country with the grids showing numeric values of 4 Zones (200), in accordance with some embodiments of the present disclosure. Further, the map in FIG. 1 is divided into equal sub section.
[0031] FIG. 3 illustrates a flowchart corresponding to a method (300) showing a Unique Asset Identification code for the territory, in accordance with some embodiments of the present disclosure. Further, the method of generating the unique asset identification code is as described. The method (300) comprises steps of dividing a country into a four equal sub-zone to form a square. For example, let this part of code be “Z” which may be represented as 1,2,3 and 4 clockwise in each quadrant. Further, the steps comprise of dividing each sub-zone to associate alphabet from A to Z ignoring letter O. For example, divide each sub-zone into 25 sub zones which forms each alphabet from A to Z ignoring 15 letter O (As this get confused with the numeric digit Zero (0). Let this part of code be called “A”. Further, the steps comprise of considering each sub-zone bottom left corner to be as origin for inner coordinates. Further, the steps comprise of dividing each sub-zone into equal 1x1 meter grid cell. Further, the steps comprise of converting each grid cell with a cell number from top left and converted from 20 integer base 10 to base 62 format. It can be noted that a base 58 may be used to reduce the length of the code. Further, the step comprises of generating the base 62

format in a four-digit format, mentioning X and Y position from the sub-zone. For example, let this part of code be “X” and “Y”. Further, the step comprises of adding an altitude value from -999 to +999 to form three digits in base 62 format, wherein a zero is used for positive sign and 1 is used for negative sign. For example, let this part of 25 code be “H”. Further, the step comprises of create a thirteen digit the Unique Asset Identification code in format of a Z.A.XXXX.YYYY.0HH. The 13-digit code describes any portion of the territory with a least count of 1 sq. 10 mt having the Unique Asset Identification code and represented by the elevation value. [0032] Example as below:

Address Part X Y Code
India Bottom Left coordinate 7312158 777575
Sub-zone bottom left coordinate 7312158 777575 4
Sub-zone coordinate w.r.t. parent zone 0 0
Alphabet Zone bottom left 706424 1074630 H
Coordinate w.r.t sub-zone 51872 270287
Input Coordinate to code 8109858 2164640
Input coordinate w.r.t. Alphabet zone 745828 1116778
Base 62 value of above 381u 4Gwy 381u.4Gwy
Altitude 100

Base 62 value of above with sign 1C 11C
Location code 4.H.381u.4Gwy.11C
[0033] Instead of Base 62, other algorithms including Base 58 will also be explored and the effort will be made to reduce the length of the code appropriately.
[0034] In practice, the components used, as well as the numbers, shapes, and sizes of the components can be whatever according to the technical requirements. The scope of protection of the invention is therefore defined by the attached claims.

Claims
We Claim:
1. A method (300) for generating a Unique Asset Identification code, the method
comprising:
dividing a country into a four equal sub-zone to form a square;
dividing each sub-zone to associate alphabet from A to Z ignoring letter
O;
considering each sub-zone bottom left corner to be as origin for inner coordinates;
dividing each sub-zone into equal 1x1 meter grid cell;
converting each grid cell with a cell number from top left and converted from 20 integer base 10 to base 62 format;
generating the base 62 format in a four-digit format, mentioning X and Y position from the sub-zone;
adding an altitude value from -999 to +999 to form three digits in base 62 format, wherein a zero is used for positive sign and 1 is used for negative sign; and
create a thirteen digit the Unique Asset Identification code in format of
a Z.A.XXXX.YYYY.0HH.
2. The method (300) of claim 1, wherein a base 58 reduce the length of the code.
3. The method (300) of claim 1, wherein a 13-digit code describes any portion of the territory with a least count of 1 sq. 10 mt having the Unique Asset Identification code and represented by the elevation value.