Asset location tracking system

Abstract

The invention provides an asset location tracking system for tracking the position of a mobile asset, such as an automobile, boat or airplane. The tracking system includes a mobile unit for installation in the mobile asset. The mobile unit includes a position locating unit, such as a GPS unit, for generating position information indicative of the position of the mobile asset, and a wireless transmitter, such as a cellular transmitter, for wirelessly transmitting the position information. The tracking system also includes a central processing system that includes a wireless receiver, such as a cellular receiver, for receiving the position information transmitted by the wireless transmitter. The central processing system also includes a processor for operating on the position information to format it to be accessible at a network address on a global communication network such as the Internet. The tracking system includes a customer computer that can access to the network address on the global communication network to display the position information. In preferred embodiments, the position information is displayed as a graphical indicator, such as a “push pin,” on a map or aerial photograph displayed a webpage accessed by the customer computer.

Description

FIELD

This invention relates to the field of asset tracking. More particularly the invention relates to a combination of Global Positioning System (GPS), cellular telephone and Internet technologies to provide for real-time tracking of an asset.

BACKGROUND

Often situations arise in which an owner of an asset, such as a automobile, wishes to confirm the location of the asset when the asset is out of the owner's control. For example, when a parent allows a teenage son or daughter to take the family car for an outing, the parent may wish to verify the location of the car at any time during the outing. As another example, a business entity operating a fleet of vehicles may wish to monitor the location of each of the vehicles during the course of business operations. As a further example, the owner of a stolen vehicle may wish to monitor the location of the vehicle and provide law enforcement officers such information to aid in recovery of the vehicle.

What is needed, therefore, is a system capable of determining the location of an asset in real-time, or near real-time, and reporting the location information to the owner of the asset or to another who is authorized to receive such information.

SUMMARY

The above and other needs are met by an asset location tracking system for tracking the position of a mobile asset, such as an automobile, boat or airplane. The tracking system includes a mobile unit for installation in the mobile asset. The mobile unit comprises a position locating unit, such as a GPS unit, for generating position information indicative of the position of the mobile asset. The mobile unit also includes a wireless transmitter, such as a cellular transmitter, for wirelessly transmitting the position information. The tracking system also includes a central processing system comprising a wireless receiver, such as a cellular receiver, for receiving the position information transmitted by the wireless transmitter. The central processing system further includes a processor for operating on the position information to format the position information to be accessible at a network address on a global communication network such as the Internet. The tracking system includes the global communication network in communication with the central processing system and in communication with a customer computer. The customer computer has access to the network address on the global communication network, and can access and display the position information.

In preferred embodiments of the invention, the position information is displayed as a graphical indicator, such as a “push pin,” on a map or aerial photograph displayed a webpage accessed by the customer computer.

In another aspect, the invention provides a method for tracking a location of a mobile asset, such as an automobile, boat or airplane. The method includes the steps of accessing an asset tracking webpage on a customer computer by way of a global communication network, such as the Internet, and selecting an asset from a list of assets displayed on the asset tracking webpage. The method includes transmitting a wireless activation signal to a mobile unit collocated with the asset, receiving the wireless activation signal at the mobile unit, and generating asset position information at the mobile unit in response to the wireless activation signal. The method also includes wirelessly transmitting the position information from the mobile unit, receiving the position information, and generating position coordinates based on the received position information. The method further includes accessing a map of an area that includes the location indicated by. the position coordinates, generating a graphical position indicator on the map to form an annotated map, accessing the annotated map via the global communication network, and displaying the annotated map accessed over the global communication network at a customer computer.

Using the invention, the location coordinates of an asset can be determined in near real time. The owner of the asset, or others authorized by the owner, can view the location of the asset on a map or aerial photograph displayed on a webpage. In this manner, the owner can track the location of the asset anywhere in the world from anywhere in the world at which the owner can gain access to the Internet.

BRIEF DESCRIPTION OF THE DRAWINGS

Further advantages of the invention are apparent by reference to the detailed description when considered in conjunction with the figures, which are not to scale so as to more clearly show the details, wherein like reference numbers indicate like elements throughout the several views, and wherein:

FIG. 1 depicts an asset tracking system according to a preferred embodiment of the invention;

FIG. 2 depicts a functional block diagram of a portion of an asset tracking system according to a preferred embodiment of the invention;

FIG. 3 depicts a functional block diagram of a portion of an asset tracking system according to a preferred embodiment of the invention;

FIG. 4 depicts a first customer interface screen according to a preferred embodiment of the invention;

FIG. 5 depicts a second customer interface screen according to a preferred embodiment of the invention;

FIG. 6 depicts a third customer interface screen according to a preferred embodiment of the invention;

FIG. 7 depicts a fourth customer interface screen according to a preferred embodiment of the invention;

FIG. 8 depicts a fifth customer interface screen according to a preferred embodiment of the invention; and

FIG. 9 depicts a sixth customer interface screen according to a preferred embodiment of the invention.

DETAILED DESCRIPTION

Depicted in FIG. 1 is an asset location tracking system 10 according to a preferred embodiment of the invention. The system 10 includes a mobile unit 20, a cellular communication network 30, a central processing system 40, a global communication network 50, a customer computer 60, a mapping module 70, and an aerial photographic database 80. The components of the system 10 and the preferred methods of operation are described in detail herein.

A brief overview of the operation of the tracking system 10 is provided first, followed by a more detailed description of the components of the system 10. With reference to FIG. 1, a customer accesses the system 10 by way of the customer computer 60. The user of the system is referred to herein as a customer, as it is envisioned that the preferred embodiment of the system 10 will be subscriber based. It should be appreciated that the customer, for purposes of this description, is an individual or entity having authority to access information regarding a mobile asset in which the mobile unit 20 is installed.

The customer computer 60 is connected to a global communication network 50, such as the Internet. Using a browser on the customer computer 60 (such as Internet Explorer or Netscape browser software), the customer accesses a webpage on the central processing system 40. On the webpage, the customer logs in and provides information indicating which asset the customer wishes to locate. The central processing system 40 then communicates with the mobile unit 20 via the cellular communication network 30. Initiated by the communication from the central processing system 40, the mobile unit 20 determines its location coordinates based on GPS processing. The mobile unit 20 communicates the GPS coordinates via the cellular network 30 to the central processing system 40, which places the coordinate information on a webpage accessible by the customer. Preferably, the coordinate information is communicated to the customer graphically, such as by indicating the location on a map generated by the mapping module 70 and displayed on the webpage. Alternatively, or additionally, the location information is communicated by indicating the location on an aerial photograph accessed from the aerial photograph database 80 and displayed on the webpage. The customer preferably accesses the webpage showing the location information via the Internet 50 using the browser software on the customer computer 60.

Preferably, the mobile unit 20 is a self-contained portable device that is collocated with a mobile asset to be tracked, such as an automobile, boat or airplane. The mobile unit 20 includes a Global Positioning System (GPS) receiver 22, a processor 24, a DTMF modulator 26, and a cellular transceiver 28. In the preferred embodiment, the mobile unit 20 is powered by the power system in the vehicle or other asset in which it is located. In one embodiment, the components of the mobile unit 20 are contained within a portable housing having a power cord and plug compatible with a standard 12 volt power receptacle in a vehicle such as an automobile or boat. In this embodiment, the mobile unit 20 may be easily moved from one asset to another. For example, it may be easily transferred from the customer's car to the customer's boat by simply unplugging the power cord from the 12 volt receptacle in the car and plugging into the receptacle in the boat.

In an alternative embodiment, the mobile unit 20 is semi-permanently installed in a dashboard or console of an automobile, boat or other mobile asset. One example of the mobile unit 20 is described in pending U.S. patent application Ser. No. 10/202,769 filed Jul. 25, 2002. Another example of the mobile unit 20 is the Travel Guardian III™ device manufactured by SecureAlert Telematics, Inc. of Knoxville, Tenn.

The GPS receiver 22 receives signals transmitted from GPS satellites in earth orbit. Based on these signals, the GPS receiver 22 determines coordinates of the location of the mobile asset in which the mobile unit 20 is installed. Preferably, these coordinates are expressed in longitude and latitude format. However, it should be appreciated that the invention is not limited to operation in any particular coordinate system.

In the preferred embodiment, the processor 24 accesses the location coordinates from the GPS receiver 22 and formats the coordinates for transmission over the cellular network 30. In one embodiment, the processor 24 formats the coordinates as a string of characters suitable for transmission in digital cellular format. Besides the location information, the string may also include an identification number for the mobile unit and a timestamp indicating the time at which the location coordinates were determined. Preferably, the location coordinates and timestamp are stored in a storage device 21 within the mobile unit 20, so that location information may be recalled from memory and transmitted at any later time.

In a preferred embodiment, the processor 24 communicates the location coordinates, timestamp, and identification information to a DTMF modulator 26. The DTMF modulator 26 generates a string of DTMF tones which encode the location, time, and identification information.

The location information, whether in digital cellular or DTMF format, is provided to the cellular transceiver 28 for transmission over the cellular communication network 30, preferably according to standard cellular communication protocol. In the preferred embodiment, the location information is received by a cellular transceiver 42 which is preferably a component of the central processing system 40.

As shown in FIG. 1, the central processing system 40 includes a processor 46 that controls the various functions of the central processing system 40. The system 40 also includes a customer database 44 that is hosted on a server and that stores customer information, such as identification information for the customer and the customer's vehicles, and billing information. The server on which the customer database 44 resides preferably runs Windows 2000 or above with IIS and ASP.NET. In the preferred embodiment, the database 44 is compatible with SQL Server Version 2000. For emailing from the system 40, CDOSYS libraries are preferably available in the hosted server. The system 40 includes a network interface 48 for enabling communication between the system 40 and the Internet 50.

Based on the coordinate information communicated from the mobile unit 20 to the central processing system 40, the system 40 communicates with the mapping module 70 to access a map of the area in which the mobile asset is located. In the preferred embodiment, the mapping module 70 is accessible over the Internet 50, such as provided by MapPoint.NET. In an alternative embodiment, the mapping module 70 is a component of the central processing system 40.

Based on the coordinate information communicated from the mobile unit 20 to the central processing system 40, the system 40 is capable of communicating with the aerial photograph database 80 to access an aerial photograph of the area in which the mobile asset is located. In the preferred embodiment, the aerial photograph database 80 is also accessible over the Internet 50. In an alternative embodiment, the aerial photograph database 80 is a component of the central processing system 40.

By way of the Internet 50, the processing system 40 accesses the mapping and/or aerial photograph information and displays the map and/or photograph on a webpage accessible to the customer. Preferably, the coordinates of the asset associated with the mobile unit 20 is indicated on the map and/or photograph by a dot, “push-pin” or other such graphical indicator. Using the browser on the customer computer 60 and tools accessible through the mapping engine 70 by way of the Internet 50, the customer may “zoom” in or out on the displayed map.

As shown in FIG. 2, the central processing system 40 preferably includes six access portals: a warrant portal 90, a registration portal 91, a customer portal 92, a customer service portal 93, and a data exchange portal 94. The system 40 also includes a shipping portal 95 as shown in FIG. 3.

The warrant portal 90 is preferably accessible only by personnel associated with the entity operating the tracking system 10, and the central processing system 40 includes security features to ensure this requirement. The entity operating the tracking system 10 is referred to herein as the service provider. When customer enters into a contract with the service provider, the service provider ‘warrants’ that the entity has a newly contracted customer. The data required for the warrant portal is sent as a CSV file, which is uploaded into the warrant portal 90. Following the upload, the warrant portal 90 parses the CSV file for the required fields. Table I provides an example of data entered by way of the warrant portal 90 in a preferred embodiment of the invention.

TABLE I
Form Name	Database Name	Description
Clerk ID	SAT_ADT_EMPLOYEE.CLERKEMPNO	Clerk employee number
Sales ID	SAT_ADT_EMPLOYEE.SALESEMPNO	Sales associate employee number
ADT Town No	SAT_ADT_EMPLOYEE.TOWNNO	Town number relating to the customer
Contract No	SAT_CUSTOMER.CONTRACTNO	Customer contract number
ADT Customer No	SAT_CUSTOMER.ADTCUSTNO	Customer number (Oracle)
First Name	SAT_CUSTOMER.FNAME	First name of customer
Last Name	SAT_CUSTOMER.LNAME	Last name of customer
Email	SAT_CUSTOMER.EMAIL	If known, the customer's email address
<hidden>	SAT_CUST_ADDR_TYPE.DESC	=1 (PRIMARY)
Street Address	SAT_CUST_ADDRESS.ADDR1	Customer's street address
Apt/PO Box	SAT_CUST_ADDRESS.ADDR2	Customer's apartment or PO Box
City	SAT_CUST_ADDRESS.CITY	Customer's city of record
State	SAT_CUST_ADDRESS.STATE	Customer's state of record
Zip code	SAT_CUST_ADDRESS.ZIPCODE	Customer's postal code
Phone Number	SAT_CUST_ADDRESS.PHONE	Customer's telephone number of record
<hidden>	SAT_CUSTOMER.CLASS	=1 (WARRANT)

When the warrant data is uploaded, it is captured and an email receipt of the transaction is preferably sent to the service provider. Additionally, two timestamps are captured: the record creating date and the warrant date. While these two dates are similar, if not identical, it is preferable to delineate between the two. Also, after the upload and parsing, certain other fields within the vehicle location tracking system database tables are preferably updated.

Table II describes the mapping of fields of warrant data from the CSV file to the fields within the tracking system 10.

TABLE II
	CSV_Column	CSV_Column_Description	Table	Field
1	1	Telemar Account Number	SAT_CUS_ASSETS	TELEMAR_ACCOUNT_NUMBER
2	2	FirstName	SAT_CUSTOMER	FIRSTNAME
3	3	LastName	SAT_CUSTOMER	LASTNAME
4	4	Address1	SAT_CUST_ADDRESS	ADDRESS1
5	5	Address2	SAT_CUST_ADDRESS	ADDRESS2
6	6	City	SAT_CUST_ADDRESS	CITY
7	7	State	SAT_CUST_ADDRESS	STATE
8	8	Zip	SAT_CUST_ADDRESS	ZIPCODE
9	9	PhoneNumber	SAT_CUST_ADDRESS	PHONE
10	10	Car Make/Model/Year	SAT_CUST_ASSETS	MAKE_MODEL_YEAR
11	11	Color	SAT_CUST_ASSETS	COLOR
12	12	VIN	SAT_CUST_ASSETS	VIN_NUMBER
13	13	License Plate	SAT_CUST_ASSETS	LICENSE_PLATE_NUMBER
14	14	1st Contact	SAT_CUSTOMER_CONTACTS	CONTACTNAME
15	15	1st Contact Phone	SAT_CUSTOMER_CONTACTS	CONTACTPHONE
16	16	2nd Contact	SAT_CUSTOMER_CONTACTS	CONTACTPHONE
17	17	2nd Contact Phone	SAT_CUSTOMER_CONTACTS	CONTACTPHONE
18	18	3rd Contact	SAT_CUSTOMER_CONTACTS	CONTACTNAME
19	19	3rd Contact Phone	SAT_CUSTOMER_CONTACTS	CONTACTPHONE
20	20	Roadside assistance provider	SAT_CUST_ASSETS	ROADSIDE_ASST_PROV
21	21	Roadside Number	SAT_CUST_ASSETS	ROADSIDE_NUMBER
22	22	Member Number	SAT_CUST_ASSETS	ROADSIDE_MEMBER_NUMBER
23	23	Quantity	SAT_CUST_ASSETS	QUANTITY
24	24	Billing Number	SAT_CUSTOMER	ADT_CUSTOMER_NUMBER
		(ADT Cutomer Number)
25	25	CS Number	SAT_CUST_ASSETS	ADT_CS_NUMBER
		(directly relates to Ass . . .
26	26	Ship To	SAT_CUS_ASSETS	Ship_To_1
27	27	Ship To	SAT_CUS_ASSETS	Ship_To_2
28	28	Ship To	SAT_CUS_ASSETS	Ship_To_3
29	29	Shipped	SAT_CUS_ASSETS	Shipped
30	30	Processed Monitoring	SAT_CUS_ASSETS	Processed_Monitoring

The warrant information uploaded from the warrant portal 90 is preferably processed as follows. Each row of the CSV file is processed. If the customer number is already available in the system, then the system will update the customer information. If a new customer is being processed, a new customer is created in SAT_CUSTOMER_TABLE. A new record is created in SAT_ADT_EMPLOYEE with the field values shown in Table II and the customer identification number obtained from the SAT_CUSTOMER record. A new record is created in SAT_CUSTOMER_ASSETS with the customer identification number obtained from the SAT_CUSTOMER record and other fields as shown in Table II. A new record is created in SAT_CUSTOMER_ADDRESS with the fields listed in Table II along with the customer identification number obtained from SAT_CUSTOMER. A new record is created in SAT_CUSTOMER_CONTACTS, with the fields listed in Table II along with the customer identification number obtained from SAT_CUSTOMER. If the customer already exists, these last two steps are not needed.

In the preferred embodiment, the warrant portal 90 includes the functional components listed in Table III.

TABLE III
CSV File Upload     Uploads the CSV file through the upload interface
                    provided in the warrant portal.
Upload Confirmation Provides upload confirmation or errors if the
                    upload was not successful.
CSV Parsing         Parses the CSV file for required data and
                    transfers the data to corresponding table fields
                    within the system.
CSV Parse Error     In case of parse error, sends an email to the
                    appropriate personnel within the service provider.

Through the registration portal 91, customers “register” their mobile units 20 to obtain eligibility for usage of the tracking system 10. One purpose of registration is the collection of billing information. Generally, a customer does not participate in the tracking system 10 without registration. In the preferred embodiment, there are two ways for a customer to activate the mobile unit 20: (1) self-activation, and (2) customer service assisted registration.

Preferably, customer go to a website for self-activation. On a welcome screen of the service provider's website, the customer clicks an activation hyperlink that takes them to an activation website to complete the activation process. Additionally customers preferably acknowledge the terms of service and privacy polices before submitting their account information. This may be represented by one or more check boxes with links to legal documents outlining the service and privacy policies.

In a preferred embodiment, the first step in the process is to locate the customer account. The customer completes a short web form consisting of the customer's contract number and phone number. The system then queries the customer database 44 for the criteria given to locate the customer's warrant. Preferably, both fields should match the database records. To make it easy for the customer to locate their contract number, a cross section of a sample contract is preferably provided on the screen for comparison.

Once the account has been successfully located based on the two-part criteria, the customer is directed to the last step of their activation process: security information and billing. The customer then completes the web form shown in Table IV.

TABLE IV
Form Name	Database Name	Description
### Billing Address ###
Username	SAT_CUST_SECURITY.USERNAME	Customer selects a UNIQUE username
Password	SAT_CUST_SECURITY.PASSWORD	Customer selects a password (4-8 chars)
Verify Password	SAT_CUST_SECURITY.PASSWORD	Verify that Password and Verify Password match
Secret Question	SAT_CUST_SECURITY.SECRET	Password recovery question
Secret Answer	SAT_CUST_SECURITY.SECRETANS	Password recovery answer
Email Address	SAT_CUSTOMER.EMAIL	Display if known. Collect if unknown.
### Billing Address ###
<hidden>	SAT_CUST_ADDR_TYPE.DESC	=2 (BILLING)
Street Address	SAT_CUST_ADDRESS.ADDR1	Customer's street address
Apt/PO Box	SAT_CUST_ADDRESS.ADDR2	Customer's apartment or PO Box
City	SAT_CUST_ADDRESS.CITY	Customer's city of record
State	SAT_CUST_ADDRESS.STATE	Customer's state of record
Zip code	SAT_CUST_ADDRESS.ZIPCODE	Customer's postal code
Phone Number	SAT_CUST_ADDRESS.PHONE	Customer's phone number
### Method of payment ###
Bank Card	SAT_CUST_PAYMENT.BANKCARD	Visa, MC, Discover, AMEX
Credit Card No.	SAT_CUST_PAYMENT.CCNO	Customer's credit card number
Expiration Mo.	SAT_CUST_PAYMENT.MONTH	Expiratory month
Expiration Year	SAT_CUST_PAYMENT.YEAR	Expiratory year (4 digit)
Name on card	SAT_CUST_PAYMENT.NAME	Name on credit card
Verification code	SAT_CUST_PAYMENT.VCODE	Three digit number on back of credit card

Preferably, customers acknowledge the service provider's terms of service and privacy policies before submitting their account information. This may be represented by one or more check boxes with links to these legal documents for the customer's inspection. During this process, the customer may elect to use their current account address as their billing address insofar that their primary address matches the information of their credit statement.

When the form of Table IV is submitted, the payment information is validated and pre-authorized for an amount to be determined by the service provider. Successful pre-authorization then activates the customer's account and mobile unit 20, and the customer is able to access the tracking system 10. In the preferred embodiment, upon successful activation, the records listed in Table V are updated in the customer database 44.

TABLE V
Database Name	Value	Description
SAT_CUSTOMER.CLASS	=2 (ACTIVATED)	Customer account
		status
SAT_CUSTOMER.ACTDATE	Then current	Date activation
	DATETIME	occurred

When a customer requires the assistance of a customer service representative to activate their account and mobile device 20, the customer calls a toll-free number. The customer service representative essentially performs the steps outlined above on behalf of the customer in accordance with a phone script that mirrors the self-activation process.

In the preferred embodiment, the registration portal 91 includes the functional components listed in Table VI.

TABLE VI
Locating customer account.   This is the first step in the registration portal. The customer completes a short web
                             form providing information that identifies them.
Cannot identify customer.    The system tries to identify using different logic like requesting other information
                             that could help in identifying the customer. In case a match cannot be made, an
                             informative error message is displayed along with details to contact customer
                             service for further assistance.
Gathering Login              The system requests the customer create a new login account along with other
information                  security information, so the customer can login to the system.
Gathering Billing/Payment    The system requests customer's billing address and the payment information.
Information
Acknowledging terms of       The customer agrees to the terms of service and privacy policies. This may be
service and privacy policies provided as a link or inline for them to review and accept the agreement terms.
Pre-Authorization of         Once the payment information is collected, the system will pre-authorize for an
payment and account          amount that will be determined by the service provider. Successful pre-
activation.                  authorization activates the customer's account. The service provider could query
                             this information through a web service or other means to activate the device, so
                             that the customer will be able to participate in the tracking system.

In the preferred embodiment, the customer portal 92 is where the customer views the tracking information for their assets. Preferably, asset track histories are maintained for billing and customer service purposes. At the customer portal 92, the user identifies the asset they wish to locate. (See FIG. 4.) The system 10 transfers this request to a telephony server, which is preferably a component of the cellular communication network 30, and the telephony server sends a signal to the GPS device. Upon receipt of the signal from the telephony server, the mobile unit 20 generates the GPS coordinates (longitude and latitude) of the mobile unit 20, and transmits the GPS coordinates to the central processing system 40. The system 40 places a location mark on a road map (See FIG. 5), or an aerial photo. (See FIG. 6.) In the preferred embodiment, the customer can also get written directions and highlighted map direction from or to the asset from or to any address or place of interest.

Through the customer portal 92, the customer can remove, add and modify assets in their list of assets. (See FIGS. 7 and 8.) Through the customer portal 92, the customer may also update their information so that the service provider has the most up to date billing and contact information in the customer database 44. (See FIG. 9.)

Thus, using the customer portal 92, the customer may: (1) log into the system 10 to use any of the features; (2) select from their available assets; (3) issue a tracking request; (4) view a map with a push pin depicting the location of the asset; (5) request driving directions from their asset location to different location; (6) purchase roadside assistance (for which the customer is billed monthly); (7) remove, add and modify assets in their list of assets; and (8) update their information so the service provider has the most up to date billing and contact information in the customer database 44.

In the preferred embodiment, the customer portal 92 includes the functional components listed in Table VII.

TABLE VII
Customer login      Customer logs into the system using their username and password they selected during the
                    registration process.
Login failure       If login fails more than two times, the customer is offered their secret question to reset the
                    password. If the answer does not match, they will be provided with the contact information
                    for customer service.
Asset list          List of customer's assets are displayed for the customer to select an asset to perform other
                    functions, such as tracking the asset. The asset list is displayed as a tabular grid, with the
                    fields listed in Table VIII.
Asset tracking      When the customer selects a particular asset from the asset list, the system starts the asset
                    tracking sequence, providing the customer with the status of tracking and returning the map
                    for the location of asset. Asset tracking consists of two modules: (1)location of asset; and
                    (2) rendering the map using the mapping module, such as using MapPoint.NET services.
Asset tracking      If the asset cannot be tracked, the customer will be provided additional error messages for
failure             such failure.
Driving directions  Once an asset is located, the customer can determine directions to any given location from
                    their asset.
Unable to obtain    In case the system is unable to provide driving directions to the destination address that the
driving directions. customer specified, the customer will be provided any error messages.
Purchasing road     The customer can purchase roadside assistance program. Any such purchases will be
side assistance.    monthly billable.
Adding assets.      The customer is able to add new assets. The customer must have the required information
                    needed to add an asset
Modifying and       The customer can also modify their asset description and other allowed information that the
removing assets.    system permits them to modify. The customer may also remove an asset from their asset list.
Updating customer   The customer can update their billing and contact information so that customer service
information.        provider will have the up to date information about the customer.

TABLE VIII
Mapping to ADT Track Table Field Description
SAT_CUST_ASSETS->AssetID         This is the unique ID for the asset.
                                 This field will link to initiating a
                                 track request for the asset.
SAT_CUST_ASSETS->                The description for the asset
Asset_Decription                 provided by the customer.
SAT_CUST_ASSETS->                The vehicle information.
Make_Model_Year
SAT_CUST_ASSETS-                 The road side assistance provider
RoadSide_Asst_Prov               for the vehicle.
SAT_CUST_ASSETS-                 The road side member account
RoadSide_Member_Number           number of the customer with the
                                 provider.
SAT_CUST_ASSETS-                 The phone number the customer
RoadSide_Number                  can call for road side assistance.

In the preferred embodiment, after the customer logs in and selects an asset, the AssetID is passed to the asset location web form. On successfully locating an asset, the location is preferably returned in a structure as shown below:

ASSET_LOCATION STRUCTURE

• • Latitude
  • Longitude
  • GPSTime
  • GPSUpdated
  • Status

Once the central processing system 40 gets this information, the asset tracking module uses this information to render the map using the mapping module 70, such as the Mappoint.NET module. Asset tracking module proceeds according to the following preferred procedure:

1. Locate MIN # for the asset, where MIN # is the outbound number that will be passed to the telephony server. Preferably, MIN# is obtained by passing the AssetID of the selected asset from Table IX.

TABLE IX
Mapping to ADT Track Table Field Description
SAT_DEVICE_UNITS->AssetID        The AssetID of the selected asset.
SAT_DEVICE_UNITS->MIN            The outbound number that will
                                 be returned.

• • 2. Obtain WorkStationID, which is an identifier for an available line on the telephony server by executing the following stored procedure:

WEBTITC_DISPATCH_AVAILABLE( )@WorkStationID, @Return,

where the Return parameter values are set forth in Table X.

TABLE X
Return parameter
values                 Description
−1                     The telephony server is busy
A one-zero value other Possibly an error occurred. The application will
than −1                convey this error by displaying the
                       error number/Return value.

• • 3. Call the following stored procedure to initiate an outbound call to the mobile device 20:

WEBTITC_COMMAND_SUBMIT(@WorkStationID, @Command, @OutBound#) @Return

where the parameter values are described in Table XI, and the return parameter value is described in Table XII.

TABLE XI
Parameter Values Description
@WorkStationID   The line ID previously obtained.
@OutBound        The Min# previously obtained.
@Command         The value passed will be “Locate”
@Return          This is a return value obtained as a result of
                 executing the stored procedure.

TABLE XII
Return parameter
values                 Description
A non-zero value other Possibly an error occurred. The application will
than −1                convey this error by displaying the
                       error number/Return value.

• • 4. Call the following stored procedure to perform call progress detection and provide the status of the call to the user:

WEBTITC_PROGRESS(@WorkStationID) @Return, @Progress, @Result

where the parameter values are described in Table XIII and the return parameter value is described in Table XIV.

TABLE XIII
Parameter
Values         Description
@WorkStationID The line ID previously obtained.
@Return        This is a return value obtained as a result of executing
               the stored procedure.
@Progress      This is a return value that contains the progress status.
@Result        This is a return value that contains the result of the
               call. Along with the @Return parameter, this
               parameter provides a way to confirm that the call
               was successful or not. When a value of “OK”
               is returned, the call is completed and the device is
               located at that instance.

TABLE XIV
Return parameter
values                 Description
A non-zero value other Possibly an error occurred. The application will
than −1                convey this error by displaying the
                       error number/Return value.

The preferred embodiment includes a mechanism to show the call progress, such as by using an IFrame or repeatedly loading a status image from the server or requesting other objects like flash files or using a Java applet.

• • 5. Obtaining the record containing the GPS information after an @Result=“OK” is accomplished by executing the following stored procedure:

WEBTITC_READ(@WorkStationID) @Return

where the Return parameter values are described in Table XV.

Return parameter
values                 Description
A non-zero value other Possibly an error occurred. The application
than −1                will convey this error by displaying the error
                       number/Return value.
0                      A row will be available containing the following
                       information:
                       Longitude, Latitude, GPSUpdated and GPSTime

Once the location of the asset is established according to the above procedure, the mapping module 70, such as the MapPoint.NET service, is used to render the map of the location.

The customer service portal 93 provides for responding to and servicing user inquiries sent to the service provider.

The data exchange portal 94 provides for accumulating and disseminating data, such as billing data.

The shipping portal 95 provides shipping information for a mobile device 20 after it is shipped to the customer. Shipping information is updated by uploading a CSV file through the warrant portal. (See FIG. 3.) After a successful upload, an email is preferably sent to the service provider. The functional components of the shipping portal according to a preferred embodiment are listed in Table XVI.

TABLE XVI
CSV File Upload     The service provider logs into the system and uploads the CSV file through the upload
                    interface provided in the warrant portal. The CSV file uploaded contains updated
                    information related to a mobile unit shipment to a customer.
Upload Confirmation Provide upload confirmation or errors if the upload was not successful.
CSV parsing: CSV    Parse the CSV file for required data and transfer the data to corresponding table fields
Fields to ADT Track within the tracking system.
Table(s) field mapping
CSV parse Error     In case of parse error an email will be sent to the appropriate entity for troubleshooting.
                    Parse error may result because of invalid format of data or unable to match existing
                    records to update the shipping information.
CSV parse OK        Send an email after successful parsing of the CSV file.

According to the procedure described above, a single set of location coordinates are transmitted from the mobile unit 20 to the central processing system 40 when the mobile unit 20 receives the appropriate signal from the central processing system 40. However, it should be appreciated that coordinates for more than one location may be communicated in a single transmission. For example, the mobile unit 20 may be programmed to take GPS position readings periodically, such as every 30 minutes, and store those readings with corresponding timestamps in the memory 21 of the mobile unit 20. These stored readings may be later uploaded during a single transmission to the central processing system 40.

It will also be appreciated that more than one position indicator (such as a “push pin”) may be displayed on a map or aerial photograph. For example, a series of positions may be overlaid on the map or photograph to depict the movements of an asset over a period of time.

Computer Program Listing

A computer program listing appendix is submitted herewith on a single compact disc, the files of which are incorporated herein by reference.

The foregoing description of preferred embodiments for this invention have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obvious modifications or variations are possible in light of the above teachings. The embodiments are chosen and described in an effort to provide the best illustrations of the principles of the invention and its practical application, and to thereby enable one of ordinary skill in the art to utilize the invention in various embodiments and with various modifications as is suited to the particular use contemplated. All such modifications and variations are within the scope of the invention as determined by the appended claims when interpreted in accordance with the breadth to which they are fairly, legally, and equitably entitled.

Claims

1. An asset location tracking system for tracking the position of a mobile asset via a global communication network, the system comprising: a mobile unit collocated with the mobile asset, the mobile unit comprising: a first wireless receiver for receiving at least an activation signal; a position locating unit for generating position information indicative of the position of the mobile unit; and a first wireless transmitter for transmitting at least the position information; a central processing system in communication with the global communication network the central processing system comprising: a second wireless transmitter for transmitting at least the activation signal; a second wireless receiver for receiving the position information transmitted by the first wireless transmitter; and a processor for operating on the position information to format the position information to be accessible via the global communication network; and a customer computer in communication with the global communication network for accessing the position information via the global communication network.

2. The asset location tracking system of claim 1 further comprising: a mapping module accessible via the global communication network; the central processing system for accessing the mapping module over the global communication network to generate a map and for generating a graphical position indicator on the map corresponding to the position of the mobile unit based on the position information; and the customer computer for accessing the map and position indicator via the global communication network.

3. The asset location tracking system of claim 1 further comprising: an aerial image database accessible via the global communication network; the central processing system for accessing the aerial image database over the global communication network to generate an aerial image of terrain corresponding to the location of the mobile unit and for generating a position indicator on the aerial image corresponding to the position of the mobile unit based on the position information; and the customer computer for accessing the aerial image and position indicator via the global communication network.

4. The asset location tracking system of claim 1 further comprising: the first wireless transmitter of the mobile unit further comprising a first cellular transmitter; the first wireless receiver of the mobile unit further comprising a first cellular receiver: the second wireless transmitter of the central processing system further comprising a second cellular transmitter associated with a cellular communication network; and the second wireless receiver of the central processing system further comprising a second cellular receiver associated with the cellular communication network.

5. The asset location tracking system of claim 4 further comprising: the first cellular transmitter of the mobile unit for transmitting digital cellular signals; the first cellular receiver of the mobile unit for receiving digital cellular signals: the second cellular transmitter of the central processing system for receiving digital cellular signals: and the second cellular receiver of the central processing system for receiving digital cellular signals.

6. The asset location tracking system of claim 4 further comprising: the mobile unit including a DTMF modulator for generating DTWF tones based at least on the position information; the first cellular transmitter for transmitting the DTMF tones via the cellular communication network; the second cellular receiver for receiving the DTMF tones; and the processor for operating on the DTMF tones to extract the location information.

7. The asset location tracking system of claim 1 further comprising the central processing system including a customer database for storing customer information regarding a customer associated with the mobile unit.

8. The asset location tracking system of claim 1 further comprising the central processing system including a customer database for storing vehicle information regarding a vehicle associated with the mobile unit.

9. A computer based method for tracking a location of a mobile asset, the method comprising: (a) providing an asset tracking webpage accessible via a global communication network: (b) accessing the asset tracking webpage o using a customer computer in communication with the global communication network; (c) selecting a mobile unit to track using the customer computer and the asset tracking webpage; (d) transmitting a wireless activation signal to the mobile unit; (e) receiving the wireless activation signal at the mobile unit; (f) generating position information at the mobile unit upon receipt of the wireless activation signal; (g) wirelessly transmitting the position information from the mobile unit; (h) receiving the position information; (i) generating position coordinates based on the position information; (j) accessing a map of an area that includes the location indicated by the position coordinates; (k) generating a position indicator corresponding to the location indicated by the position coordinates; (l) associating the position indicator with the map to form an annotated map; (m) accessing the annotated map on the tracking webpage via the global communication network using the customer computer; and (n) displaying the annotated map at the customer computer.

10. The asset location tracking system of claim 1 wherein the position locating unit is activated to generate the position information upon receipt of the activation signal at the mobile unit.

11. The asset location tracking system of claim 1 further comprising the customer computer for communicating with the central processing system via the global communication network to select the mobile unit to be tracked from a list of one or more mobile units.

12. The asset location tracking system of claim 11 wherein the second wireless transmitter transmits the activation signal to the mobile unit after the mobile unit is selected based on communication between the customer computer and the central processing system.

13. The asset location tracking system of claim 1 wherein the first wireless transmitter is activated upon receipt of the activation signal at the mobile unit.

14. The asset location tracking system of claim 1 wherein the position locating unit further comprises a Global Positioning System receiver.

15. The asset location tracking system of claim 1 wherein the mobile unit further comprises a power plug configured to be received by a power receptacle provided in a passenger compartment of a vehicle, whereby the mobile unit may be easily relocated from one vehicle to another vehicle.

16. An asset location tracking system for tracking the position of a mobile asset using a global communication network and a cellular communication network, the system comprising: a mobile unit collocated with the mobile asset, the mobile unit comprising: a cellular receiver for receiving at least an activation signal; a position locating unit for generating position information indicative of the position of the mobile unit, the position locating unit activated upon receipt of the activation signal at the mobile unit; and a cellular transmitter for transmitting at least the position information via the cellular communication network, the cellular transmitter activated upon receipt of the activation signal at the mobile unit; a mapping module accessible via the global communication network; a central processing system in communication with the global communication network and the cellular communication network, the central processing system for sending at least the activation signal to the mobile unit via the cellular communication network, and for receiving the position information transmitted by the mobile unit via the cellular communication network, the central processing system comprising: a processor for accessing the mapping module via the global communication network to generate a map, and for generating a position indicator corresponding to the position of the mobile unit based on the position information, and for associating the position indicator with the map; a customer database for storing customer information regarding a customer associated with the mobile unit; and a customer computer for communicating with the central processing system via the global communication network to select the mobile unit to be tracked from a list of one or more mobile units, and to access the map to view the position of the selected mobile unit as indicated by the position indicator.