Method for monitoring and reporting changes in the value of real estate

This invention discloses a process involving automatic notification to interested individuals of current real estate values. The process consists of a monitoring service entity, external data source, and end-user. The disclosed embodiments include a process whereby parties can be directly notified of real estate values or alternatively may initiate contact with the monitoring entity to receive data.

FIELD OF INVENTION

This invention relates, generally, to a process for monitoring and reporting real estate valuation; more particularly to a process in which interested individuals can be automatically notified of recent property sales and changes in values in particular neighborhoods.

BACKGROUND

Setting the optimum selling price for real estate property is crucial to a successful and profitable sale. An overpriced property can sit on the market for a year or more. An under-priced property may sell quickly, but for potentially far less money than it is actually worth. So before a property is sold, it is essential to know the property's true market value in today's ever-changing real estate market.

Traditionally, buyers or sellers of real estate contact real estate agents, brokers, or the like, to determine the value of real estate within a certain location. The problem with this method is that many individuals are reluctant to initiate contact with real estate agents or brokers for fear of having to commit to a sale or purchase, or fear of getting locked into an exclusive contract to pay a commission. Another problem is that the agent or broker, without being asked in advance, neither monitors nor notifies potentially interested parties about up-to-the minute changes in the property values within a certain given location. Even if agents were able to monitor changes in property values, the time and commitment required would be cost-prohibitive for the agents, particularly given that there is no assurance that such close monitoring would lead to closing any particular transaction for which that broker or agent would be certain to earn a commission. Sellers of real estate have another problem in that they have to pay to have the value of their real estate assessed and later pay again if the market changed before the sale has been closed.

Therefore, there has been a long felt need in the art for a method to allow people to monitor their property values, a process which is automated, accurate, and able to notify the interested individual on a regular basis at low cost and without the necessity of a personal relationship with an agent or a broker.

SUMMARY OF INVENTION

This invention is directed towards overcoming the above shortcomings by disclosing a method of monitoring real estate values that is automated and able to report directly to interested individuals.

In one embodiment, the method to monitor real estate values comprises evaluating an initial property valuation of the property of interest; monitoring periodically for the most recent local sales; determining an estimated property value of the property of interest; and notifying clients of the estimated property value and most recent local sales, and how the most recent local sales affect the estimated property value of the property of interest.

In another embodiment, the evaluating part comprises using at least one algorithm and at least one data set within a monitoring service computer.

In a further embodiment, the evaluating part comprises using information from a third party.

In one advantageous embodiment of the invention, the monitoring part comprises using at least one data set and at least one algorithm within the monitoring service computer. Alternatively, the monitoring part involves an individual randomly contacting the monitoring service computer.

A method to monitor real estate is disclosed wherein the determining part comprises a method of calculating the most recent local sale using latitude and longitude coordinates from data sets or from a real estate service, checking the most recent local sale's longitude and latitude coordinates against the property of interest's coordinates, and then determining whether the estimated property value for the most recent local sale is within a particular price range.

In one embodiment, the price range is a universal range. In a further embodiment, the price range is individually determined for each property monitored at the time of the initial property valuation.

In another embodiment, the method to monitor real estate involves recording the identities of the properties used as most recent local sale and the property of interest receiving the estimated property value in the monitoring service computer.

Further, a method to monitor real estate values is disclosed, where the notifying part comprises contacting individual consumers by electronic means. Alternatively, third parties could be contacted by electronic means.

In one embodiment of the invention, the method to monitor real estate values further comprises displaying a map of the neighborhood of the property of interest, the estimated property value, and the most recent local sales information. In another embodiment, the method comprises displaying an equity calculator. In a further embodiment, the method to monitor real estate values comprises displaying an equity history over time of the property of interest.

Further, a system to monitor real estate values is disclosed which comprises a means for evaluating an initial property value of the property of interest; a means for checking periodically for the most recent local sales; a means for determining the estimated property value of the property of interest based upon the most recent local sales; and a means for notifying clients of the most recent local sale, and how the most recent local sales affect the estimated property value of the property of interest.

DETAILED DESCRIPTION OF THE DRAWINGS

FIG. 1shows the external data source10in relationship with the monitoring service11which is in relationship with the end-user15. The monitoring service comprises data base12, data processor13, and server14components.

FIG. 2shows information flowing from one or numerous external data sources. This information or data sets includes, but is not limited to, real estate information from tax rolls16, deed information (most recent sales)17, periodic data updates (transactions)18, periodic data updates (properties)19, and other public records and real estate information. The external data source(s)10will send information to the monitoring service11using ASCII file, FTP or similar electronic link, or with human intervention using a CD or DVD-ROM or other portable data storage means. The data will be sent periodically in an automatic manner as determined by algorithms, or when desired as determined by human operators using a computer, a web browser, and a graphical user interface (GUI) operably connected to the external data source's server or computer.

The monitoring service11consists of data base12, data processor13, and server14. The data base12is comprised of information obtained from the external data sources that consist of data sets such as property information from tax rolls16, deed information (most recent sales)17, periodic data updates (transactions)18, periodic data updates (properties)19, and other public records and real estate information. The data base12will also record information computed by algorithms within the data processor such as, but not limited to, most recent listed sales (MRLS)20and estimated property value (EPV)21.

The data processor13within the monitoring service11consists of several different algorithms whose function includes, but is not limited to, (i) monitoring properties of interest (ii) calculating the most recent listed sales (MRLS)20, (iii) calculating the estimated property value (EPV)21and (iv) calculating changes in property values.

The data processor13monitors properties using algorithms. For instance, the following algorithms can be used to monitor interested properties:

If X count of props can be found within Y radius then send notification to the end user.

If the property type is A, B, or C and within a certain geographic area send notification to the end user.

Other than using algorithms, notification can be initiated via human operator intervention using a computer, web browser, and a graphical user interface (GUI) operably connected to the monitoring service's server or computer.

The data processor13determines the initial property valuation (IPV) with algorithms using data sets within the data base12including, but not limited to, real property information from tax rolls16, deed information (most recent sales)17, periodic data updates (transactions)18, periodic data updates (properties)19, and other public records and real estate services.

The processor also performs calculations of MRLS using latitude and longitude coordinates from data sets within the data base or from real estate services, checks each MRLS property's longitude and latitude coordinates against the coordinates of the property of interest, and then determine whether the estimated property value of the MRLS is within a particular range. The price range can be either a universal range or one that is individually determined for each property monitored at the time of the initial valuation. The identities of the properties used as recognized MRLS are recorded in the database12.

Calculation of the EPV or its updated valuation is based on algorithms within the data processor13using data sets within the database12that includes, but is not limited to, real property information from tax rolls16, deed Information (most recent sales)17, periodic data updates (transactions)18, periodic data updates (properties)19, and all MRLS data for a monitored property after so many number of MRLS have been discovered. The identities of the properties receiving the EPV are recorded in the database12.

The server14links the monitoring service to the internet. The monitoring service receives and transmits information respectively to the external data source10and the enduser15.

FIG. 3illustrates that the end-user entities15can request from the monitoring service11functions such as, but not limited to, which properties are to be monitored22, which properties to stop monitoring23, MRLS maps24, MRLS listings25, and listings26of individuals or parties that should be notified of EPV21and MRLS20data.

FIG. 4is an illustration of a computer screen form to be filled out by the end-user15to request the monitoring service11to monitor a property of interest.

FIG. 5illustrates a report displayed on a computer screen used by the monitoring service to notify end-users15of the EPV21and MRLS20data.

The end-user entity15can be directly notified by the monitoring service11using electronic means, or the end-user can initiate contact with the monitoring entity via electronic means. Here, the notification can also be personalized as if it came from a third party. The end-user15can be either individual consumers, or third party entities who are interested in providing information to their clients. Data from this notification process including, but not limited to, a record of the need to make the notification, a record of the fact that the notification was actually made via a certain manner, and when necessary, a record that notification was made but sent back (and noting what the reason was) will all be recorded in the database12of the monitoring service's computer for further use.

The end-user entity15is comprised of a computer, a web enabled browser, and a graphical user interface (GUI) operably connected to said end user's server or computer.