Method for Synchronous Communication to Procure, Schedule, Coordinate, and Deliver Materials to a Plurality of Construction Projects Automatically Using a Calendar Model

Abstract

A method using synchronous communication to procure, schedule, coordinate, and deliver materials to a plurality of construction projects with a Calendar Model while using an administrative processor with administrative computer readable media connected to a global communication network and client devices for a plurality of suppliers, a plurality of consultants, a plurality of contractors, and a plurality of administrators. The method includes creating a supplier profile, a contractor profile a consultant profile, construction project and an administrative profile in the geographic database.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No. 16/216,607 filed on Dec. 11, 2018, which claims priority to U.S. Provisional Application Ser. No. 62/571,930 filed on Oct. 13, 2017. The contents of which are incorporated by reference in its entirety.

TECHNICAL FIELD OF THE INVENTION

The present embodiment generally relates to a method of synchronous communication to procure, schedule, coordinate, and deliver materials to a plurality of construction projects automatically using a calendar model.

BACKGROUND OF THE INVENTION

A need exists for better procurement techniques for construction materials.

The present embodiments meet these needs.

BRIEF DESCRIPTION OF THE DRAWINGS

The detailed description will be better understood in conjunction with the accompanying drawings as follows:

FIG. 1 depicts an overview of equipment needed in implementing the method according to one or more embodiments.

FIG. 2 depicts elements for an exemplary supplier profile according to one or more embodiments.

FIG. 3 depicts elements for an exemplary contractor profile according to one or more embodiments.

FIG. 4 depicts elements for an exemplary consultant profile according to one or more embodiments.

FIGS. 5A-5B depict elements for an exemplary construction project according to one or more embodiments.

FIG. 6 depicts elements for an exemplary administrative profile according to one or more embodiments.

FIGS. 7A-7C depict a sequence of steps for implementing the method according to one or more embodiments.

FIGS. 8A-8B are diagrams of a usable administrative computer readable media for implementing the method according to one or more embodiments.

FIG. 9 depicts a view of the interactive calendar on a client device.

FIG. 10 depicts a view of a daily schedule.

FIG. 11 depicts a view of the ‘My Projects in Progress’ screen on a client device.

FIG. 12 depicts a view of a map with pending assignments.

The present embodiments are detailed below with reference to the listed Figures.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Before explaining the present method in detail, it is to be understood that the method is not limited to the particular embodiments and that it can be practiced or carried out in various ways.

The invention relates to a method using synchronous communication to procure, schedule, coordinate, and deliver materials to a plurality of construction projects automatically using a calendar model and using an administrative processor with administrative computer readable media connected to a global communication network and client devices for a plurality of suppliers, client devices for a plurality of contractors and client devices for a plurality of consultants, all simultaneously.

The invention provides the advantage of preventing the potential for critical errors in construction materials procurement, such as sending the wrong mix of construction materials to a parking garage project and the parking garage collapses as a result of improper materials, instead, the invention attempts to stop death from such occurrences.

The invention provides the advantage of preventing an environmental toxic spill by streamlining information and quantity to a job site, by providing too much construction materials at a site, causing construction materials to be disposed of which can harm the environment and water supply.

The invention provides the advantage of preventing toxic materials leaching through concrete that was poured with the wrong admixtures.

The invention provides the benefit of making sure pour rates are correct for cast in place projects where preformed forms and shoring could otherwise collapse if the wrong pour rate is used causing death.

The invention with the calendar model enables reduced use of fossil fuels by providing the most efficient supply to a construction project location for concrete or other construction material.

The invention is for a method of synchronous communication to procure, schedule, coordinate, and deliver materials to a plurality of construction projects automatically using an administrative processor with administrative computer readable media connected to a global communication network and client devices for a plurality of suppliers, client devices for a plurality of contractors and client devices for a plurality of consultants.

The first step involves creating a supplier profile, a contractor profile, a consultant profile and a construction project profile all in a geographic database.

The method includes inserting construction materials data, files, images, and material design specifications, quantity, delivery rate, construction project site location geocodes, a predefined serviceable distance for suppliers to the construction project site location geocode, and a delivery date for construction materials into the construction project.

The method includes the step of comparing the construction project site location geocode to each supplier location geocode and generating a geographic list of supplier profiles within the predefined serviceable distance to the construction project site location geocode.

The method includes the step of: transmitting the geographic list of supplier profiles each contractor client device contact number that matches the predefined serviceable distance and comparing each delivery date required for construction materials to each contractor's current construction project dates and generating a chronological list from the geographical list of supplier profiles that have availability on a delivery date required for construction materials.

The method further includes transmitting the chronological list of supplier profiles to each contractor client device contact phone number; and matching a supplier profile to a construction project and automatically inputting supplier mix designs into each construction project.

The following terms are used herein:

The term “consultant information” refers to a name, address, cell phone number, office phone number, email, and company code, company rating, type of user as consultant indicator.

The term “contractor information” refers to a name, address, cell phone number, office phone number, email, and company code, company rating, type of user as contractor indicator.

The term “construction project information” refers to a name, address, editable construction material quantity, editable pour rate, P.S.I., analog images, digital data files, cell phone number, office phone number, email, and company code, and type of user as construction project indicator.

The term “supplier information” refers to a name, address, cell phone number, office phone number, email, and company code, company rating, type of user as supplier indicator.

Turning now to the Figures, FIG. 1 is an overall diagram of the equipment usable with the method.

FIG. 1 shows equipment usable with the method of synchronous communication to procure, schedule, and deliver materials to a plurality of construction projects 80a, 80b automatically using an administrative processor 20 with administrative computer readable media 22 connected to a global communication network 24 and client devices 27a-27c for a plurality of suppliers 26a-26c, client devices 29a-29c for a plurality of contractors 28a-28c and client devices 25a-25c for a plurality of consultants 30a-30c, and client devices 23a-23c for a plurality of administrators 21a-21c.

FIG. 2 is a diagram of a supplier profile 30 usable in the method.

The supplier profile 30 in the geographic database includes supplier information 31 such as supplier name such as Best Material Suppliers Inc.; a construction project to be quoted 33 such as New Retail Center Project; a construction projects scheduled 34 such as Town Hall Parking Lot Expansion in addition to other projects awarded to supplier; a construction project in progress 35 such as Municipal Hospital Addition; a history of construction projects 36 such as a Trinity Trail Sidewalk Improvement; a plurality of supplier mix design 37 such as 30U500BG; and such as 35U400BG which specify the formulation of the constituents used to create the construction materials; a supplier location geocode 38 such as latitude and longitude coordinate that specifies the location of the supplier's construction materials material plant; and a supplier client device contact phone number 39 such as 713-275-3400.

FIG. 3 is a diagram of a contractor profile 50 usable in the method.

A contractor profile 50 in the geographic database 40 for each of the plurality of contractors, can include contractor information such as; contractor name such as Best Contractors Inc.; a construction projects to be quoted from a supplier 53 such as; New Retail Center Project; a construction projects scheduled 54 such as Town Hall Parking Lot Expansion; a construction projects in progress 55 such as Municipal Hospital Addition; and a history of construction projects 56 such as Trinity Trail Sidewalk Improvement; and a contractor client device contact phone number 57 such as 713-403-7411.

FIG. 4 is a diagram of a consultant profile 60 usable in the method.

Each consultant profile 60 can include consultant information 61 such as consultant name such as Best Consultants Inc.; construction projects scheduled 63 such as Town Hall Parking Lot Expansion; construction projects in progress 64 such as Municipal Hospital Addition; a history of construction projects 65 such as Trinity Trail Sidewalk Improvement; and a consultant client device contact phone number 66 such as 713-403-7411.

FIGS. 5A-5B are a diagram of a Construction Project 80.

The construction project profile 80 can be stored in the geographic database and linked to each supplier profile, and contractor profile, and contractor specified consultant profiles.

Each construction project 80 can include: construction project information 82 such as a project name such as The Falls Apartment Homes Phase I, physical location, contractor name; construction materials mix design specification 84, such as images of specification documents; a construction project site location geocode 86, such as latitude and longitude coordinate that specifies the location of the construction project location; a predefined serviceable distance for suppliers to the construction project site location geocode 88 such as 30 miles; an editable type of pour 503 such as Foundation; an editable pour rate 505 such as 30 minutes; an editable pour quantity 507 such as 35 yards; an editable delivery date 509 such as May 10, 2017; an editable delivery start time 511 such as 3:58 PM; digital images 513 such as project site entry images; analog images 514 such as project washout location images; digital data files 517 such as material design specifications; processed digital data files 519 such as construction project rear entrance with indication arrow on the construction projects; ad mixtures 521 such as flyash; pounds per square inch (psi) 522; and project specific notes 523 and project specific messages 524 such as use entrance located of the northern boundary of the project.

FIG. 6 depicts elements of an exemplary administrative profile usable in the method.

The administrative profile 70 in the geographic database includes administrative information 71 such as administrative name such as Ready Set Pour; construction projects to be quoted by a supplier 70 such as New Retail Center Project; construction projects to be scheduled 73, such as Town Hall Parking Lot Expansion; construction projects in progress 74 such as Municipal Hospital Addition; a history of construction projects 75, such as Trinity Trial Sidewalk Improvements; an administrative client device contact phone number 76, such as 713-279-3500, and additional features, such as reports 91, controls 92, and profile administration 93.

FIGS. 7A-7C detail the steps of the method.

The method of synchronous communication to procure, schedule, and deliver materials to a plurality of construction projects 80a, 80b automatically using an administrative processor 20 with administrative computer readable media 22 (FIG. 1) connected to a global communication network 24 and client devices 27abc for a plurality of suppliers 26abc, client devices 29abc for a plurality of contractors 28abc and client devices 25abc for a plurality of consultants 30abc, initially has the step 200 of creating at least one supplier profile 30 in a geographic database 40 of the administrative computer readable media for each of a plurality of suppliers.

Step 201 involves inputting a supplier pour rating for each supplier into each supplier profile.

Step 202 involves creating a contractor profile 50 in the geographic database 40 for each of the plurality of contractors.

Step 203 involves inputting a contractor pour rating for each contractor into each contractor profile.

Step 204 involves creating a consultant profile in the geographic database 40 for each of the plurality of consultants.

Step 205 is inputting a consultant pour rating for each consultant into each consultant profile.

Step 210 involves verifying information of each created supplier profile, contractor profile, consultant profile and inserting an account approval.

Step 220 is the step of creating a plurality of construction projects in the geographic database and linking each construction project to a contractor profile.

Step 230 involves comparing the construction project site location geocode to each supplier location geocode and generating a geographic list of supplier profiles within the predefined serviceable distance to the construction project site location geocode.

Step 240 involves transmitting the geographic list of supplier profiles each contractor profile that matches the predefined serviceable distance.

Step 250 involves comparing each delivery date required for construction materials to each contractor's current construction project dates and generating a chronological list from the geographic list of supplier profiles that have availability on a delivery date required for construction materials.

Step 252 involves transmitting the geographical list of supplier profiles to each contractor profile.

Step 254 involves transmitting the geographical list of construction projects to each supplier client profile.

Step 262 involves comparing pour ratings of each contractor profile and forming a list of contractor profiles from highest to lowest pour rating.

Step 266 involves comparing pour ratings of each supplier profile and forming a list of supplier profiles from highest to lowest pour rating.

Step 269 involves transmitting the list of supplier profiles from highest to lowest pour rating to at least one of: the plurality of consultant profiles, the plurality of contractor profiles, and the plurality of construction projects.

Step 270 matching a supplier profile to a construction project and automatically inputting supplier mix designs into each construction project.

Step 271 inputting a password into each profile.

Step 272 providing a verification code via text message or email to reset a password and access a profile when a user associated with a profile selects “forgot password”.

FIGS. 8A-8B depict an administrative computer readable media 22 includes a supplier profile 30, a geographic database 40, a contractor profile 50, a consultant profile 60, administrative profile 70, and a construction project 80.

The administrative computer readable media includes instructions 97 that instruct the administrative processor to automatically generate and transmit a supplier executive dashboard 153 to a supplier client device, wherein the instructions automatically populate the supplier executive dashboard using the supplier profile.

Also included are computer instructions 98 in the administrative computer readable media 22 that instruct the administrative processor to automatically generate and transmit a contractor executive dashboard 155 to a contractor client device, and wherein the instructions 98 automatically populate the contractor executive dashboard using the supplier profile and the contractor profile.

The computer instructions 99 in the administrative computer readable media 22 that instruct the administrative processor to automatically generate and transmit a consultant executive dashboard 157 to a consultant client device, and wherein the instructions automatically populate the consultant executive dashboard using the contractor profile.

The computer instructions 101 in the administrative computer readable media 22 instruct the administrative processor to automatically generate and transmit a visual interactive map with locatable pin 161 (FIG. 7B) using the construction project location geocode to identify a construction project location, which includes GPS tracking capabilities.

The computer instructions 103 in the administrative computer readable media 22 instruct the administrative processor to automatically generate and automatically populate a construction project executive dashboard and provide a link enabling a user to reject or approve a supplier construction materials mix design.

The computer instructions 105 in the administrative computer readable media 22 instruct the administrative processor to automatically generate on the construction project executive dashboard 159: a hold indicator activated by a user when a construction project is on hold; a resume indicator activated by a user when a construction project that was on hold is resumed; a complete indicator activated by a user when a construction project is complete; and a rating indicator that presents feedback from suppliers, and contractors that indicates satisfaction with product, timeliness of services, and errors in product and service.

The administrative computer readable media includes a plurality of prewritten messages 107 such as “mix is ready for pick up.”

The administrative computer readable media contains computer instructions 109 to instruct the administrative processor to selectively transmit one or more stored prewritten message to all profiles simultaneously associated with the construction project profile when at least one of these conditions occur; a date changes, a pour quantity changes, pour status changes, and pour rate changes.

The administrative computer readable media contains the supplier executive dashboard 153.

The administrative computer readable media contains the contractor executive dashboard 155.

The administrative computer readable media contains the consultant executive dashboard 157.

The administrative computer readable media contains the construction project executive dashboard 159.

The administrative computer readable media contains a visual interactive map with locatable pin 161.

The administrative computer readable media contains a supplier construction materials mix design 177.

Various computer instructions are in the administrative computer readable media.

FIG. 9 depicts a view of the interactive calendar on a client device.

An interactive calendar screen 180 is shown in FIG. 9.

The interactive calendar is created using synchronous communication to procure, schedule, coordinate, and deliver materials to a plurality of construction projects 80a, 80b (FIG. 1) automatically using an administrative processor 20 (FIG. 1) with administrative computer readable media 22 (FIG. 1) connected to a global communication network 24 (FIG. 1) and client devices 27abc for a plurality of suppliers 26abc (FIG. 1), client devices 29abc for a plurality of contractors 28abc (FIG. 1) and client devices 25abc for a plurality of consultants 30abc (FIG. 1).

Along the bottom of the interactive calendar screen 180 are the ‘My Projects’ tab 170, the ‘Calendar’ tab 172, the ‘Notifications’ tab 174, the ‘Messages’ tab 176, and the ‘Profile’ tab 178.

The tabs can be used to quickly switch from one screen to another.

FIG. 10 depicts a view of a daily schedule.

The daily schedule screen 182 is shown in this figure.

An example of the tasks and assigned contractor 186 are depicted in this Figure as well.

FIG. 11 depicts a view of the My Projects screen on a client device.

A view of the “My Projects in Progress” screen 183 is depicted in this figure.

Also displayed here are a lit of requests for quotations 185.

FIG. 12 depicts a view of a map with pending assignments.

The map screen 184 is shown in this figure.

The map screen 184 displays upcoming assignments 187 in relation to where they are to take place along with their assigned date.

The map screen 184 also lists pending assignments 188 and includes information about how far that assignment is from the user 189.

Example 1

The invention is a method with an interactive calendar created using synchronous communication or procure, schedule, coordinate, and deliver materials to a plurality of construction projects such as Main Street Sidewalk Expansion, automatically using an administrative processor like an apache server with administrative computer readable media such as coded data connected to a global communication network like the internet and client devices such as lap top computers or mobile phones, for a plurality of suppliers like ready mix construction materials suppliers, client devices 29abc for a plurality of contractors such as construction materials contractor and client devices 25abc for a plurality of consultants such as City inspectors, testing labs, engineers, tool rental companies, and owner's representatives.

The calendar includes a supplier profile in a geographic database such as a Cassandra™ server for each of the plurality of suppliers in the administrative computer readable media.

Each supplier profile includes supplier information like location geocodes and contact information, a supplier name such as “Billy Bob's Concrete Co.”, construction projects scheduled such as new parking garage, and a construction project in progress for instance “Denton High School Addition.”

Supplier profiles also includes a history of construction projects such as Denton ISD Stadium, a plurality of supplier mix designs like BG600U, a supplier location geocode for example 1234 Main St. Lewisville, Tex. 75077, a supplier client device contact phone number such as 888-867-5309, and an interactive supplier calendar of a phone number such as 888-867-5309, and an interactive supplier calendar of a construction project to be quoted such as Dallas City Streets, a construction projects scheduled for instance Jason's Deli Mesquite, a construction project in progress for example “Patio Extension”, and a history of construction projects for instance Dallas Area Rapid Transit, Braken Elementary Parking Lot Expansion, and Taco Casa #256.

The disclosed invention also includes a contractor profile in the geographic database for each of the plurality of contractors, each contractor profile having a contractor information including contractor name such as “Mark”, construction projects to be quoted from a supplier such as DFW Runway Extension, construction projects scheduled such as Trinity River Armoring Project, construction projects in progress such as Residential Foundation, a history of construction projects for instance Dallas Cowboys Headquarters Addition and L.A. Fitness Red Oak, a contractor client device contact number such as 214-555-1212, and an interactive contractor calendar of construction projects to be quoted from a supplier Wendy's White Oak construction projects scheduled Kroger #4521 construction projects in progress Denton Sidewalk Repair Contract and history of construction projects such as Retaining Wall at Jeter Rd.

The invention includes a consultant profile in the geographic database for each of the plurality of consultants. Each consultant profile includes consultant information such as consultant type, contact information, and physical location, consultant name such as Mycon Engineering, construction projects scheduled for instance Town Hall Addition, construction projects in progress for example Vista Ridge Mall New Construction, history of construction projects such as Lewisville Lake Spillway Repair and a consultant client device contact number like 972-444-8787.

The invention also includes an interactive consultant calendar of construction projects scheduled such as Rudy's Rear Patio Expansion, construction projects in progress such as John Paul's Chevrolet Dealership and history of construction projects like New Town Courthouse Building.

Each interactive consultant calendar contains verified information of each created supplier profile such as Cowtown Concrete, contractor profile, and inserting an account approval for instance account approved.

The interactive consultant calendars also have construction projects in the geographic database such as Discount Tire #352 and linking each construction project to the contractor profile, the supplier profile and the consultant profile.

Each construction project having construction project information such as Construction Project Name, construction materials material mix design specification such as U600BHG, a construction project site location geocode such as 1234 S. Mill St. Lewisville, Tex. 75077, a predefined serviceable distance for suppliers to the construction project site location geocode for example 30 miles, and a delivery date, such as Jan. 21, 2019.

The invention also includes a calendar model configured to compare the construction project site location geocode to each supplier location geocode and generate a geographic list of supplier profiles within the predefined serviceable distance such as 30 miles to the construction project site location geocode.

The calendar model is also configured to transmit the geographic list of supplier profiles to each contractor profile that matches the predefined serviceable distance, and compare each delivery date required for construction materials to each construction project profile, and generate a chronological list of supplier profiles from the geographic list of supplier profiles that have availability on a delivery date required for construction materials in the construction project for example Nelson Brother's Ready Mix.

The calendar model is configured to also transmit the chronological list of supplier profiles to each contractor profile, and match a supplier profile from the chronological list of supplier profiles to a contractor profile and automatically inputting supplier mix designs such as U600BGH into each construction project profile and using a Calendar Model to simultaneously input the matched supplier profiles into each of the interactive supplier calendars, interactive consultant calendars, and interactive contractor calendars simultaneously with calculated times required in minutes, hours and days for each step of the construction materials procurement process and displaying a calendar of supplier and contractor.

While these embodiments have been described with emphasis on the embodiments, it should be understood that within the scope of the appended claims, the embodiments might be practiced other than as specifically described herein.

Claims

1. A system comprising:

a database containing a data structure comprising a plurality of supplier profiles, contractor profiles and construction project profiles, wherein each construction project profile is linked to one or more of the contractor profiles and supplier profiles;

a processor connected to the database;

one or more supplier client devices;

one or more contractor client devices; and

wherein the processor: compares a construction project site location geocode within the construction project profile to a supplier location geocode of each supplier profile linked to the construction project profile; generates a geographic list of supplier profiles within a predefined serviceable distance to the construction site location geocode; generates a chronological list of supplier profiles from the geographic list of supplier profiles that have availability on a delivery date required for construction materials in the construction project profile; matches one or more of the supplier profiles from the chronological list of supplier profiles to one or more of the contractor profiles linked to the construction project profile; and automatically causing procurement, scheduling, coordination and delivery of the construction materials on the delivery date by transmitting the matched supplier profiles to the contractor client device of each contractor profile linked to the construction project profile and the supplier client device of each matched supplier profile, and simultaneously inputting the matched supplier profile on the delivery date for the construction materials into an electronic interactive contractor calendar of the contractor client device and an electronic interactive supplier calendar of the supplier client device of each matched supplier profile, wherein the electronic interactive contractor calendar is customized for each contractor, and the electronic interactive supplier calendar is customized for each supplier.

2. The system of claim 1, wherein each supplier profile comprises: a supplier information, a supplier name, a construction project to be quoted, a construction project scheduled, a construction project in progress, a history of construction projects, a plurality of supplier material designs, a supplier location geocode, and a supplier client device contact phone number.

3. The system of claim 1, wherein the electronic interactive supplier calendar contains a construction project to be quoted, a construction project scheduled, a construction project in progress, and a history of construction projects.

4. The system of claim 1, wherein the processor further: automatically generates and populates a supplier executive dashboard using the supplier profiles and the contractor profiles, and transmits the supplier executive dashboard to at least one of the supplier client devices.

5. The system of claim 1, wherein each contractor profile comprises: a contractor information including contractor name, a construction projects to be quoted from a supplier, a construction projects scheduled, a construction projects in progress, a history of construction projects, and a contractor client device contact number.

6. The system of claim 1, wherein the electronic interactive contractor calendar contains a construction project to be quoted, a construction project scheduled, a construction project in progress, and a history of construction projects.

7. The system of claim 1, wherein the processor further: automatically generates and populates a contractor executive dashboard using the supplier profiles and the contractor profiles, and transmits the contractor executive dashboard to at least one of the contractor client devices.

8. The system of claim 7, wherein the processor further automatically generates on the contractor executive dashboard a hold indicator activated by a user when the construction project is on hold, a resume indicator activated by the user when the construction project that was on hold is resumed, a complete indicator activated by the user when the construction project is complete, and a rating indicator that presents feedback from suppliers and contractors indicating satisfaction with product, timeliness of services, and errors in product and service.

9. The system of claim 1, further comprising:

the data structure further comprises a plurality of consultant profiles, wherein each construction project profile is linked to one or more of the consultant profiles;

one or more consultant client devices; and

automatically transmitting the matched supplier profiles to the consultant client device of each consultant profile linked to the construction project profile, and simultaneously inputting the matched supplier profile on the delivery date for the construction materials into an electronic interactive consultant calendar of the consultant client device, wherein the electronic interactive consultant calendar is customized for each consultant.

10. The system of claim 9, wherein each consultant profile comprises: a consultant information, a consultant name, a construction projects scheduled, a construction projects in progress, a history of construction projects, and a consultant client device contact phone number.

11. The system of claim 9 wherein the electronic interactive consultant calendar contains a construction projects scheduled, a construction projects in progress, and a history of construction projects.

12. The system of claim 9, wherein the processor further automatically generates and populates a consultant executive dashboard using the suppliers profiles and the contractors profiles, and transmits the consultant executive dashboard to one or more of the consultant client devices.

13. The system of claim 9, wherein the processor further:

verifies the information stored in each supplier profile, contractor profile, and consultant profile; and

inserts an account approval in each supplier profile, contractor profile, and consultant profile that is verified.

14. The system of claim 1, wherein the processor further creates the construction project profile in the geographic database, wherein each construction project profile comprises: a construction project information, a construction material design specifications, and a construction project site location geocode.

15. The system of claim 14, wherein the construction material design specifications comprises at least three of: constituents of aggregate, sizes of aggregate, temperature of aggregate, type of aggregate, weight of aggregate, pour rate of aggregate, a batch rate for each type of aggregate, a cement ratio, a water ratio, a strength rating in psi, a cure rate, and a flex modulus.

16. The system of claim 14, wherein the construction project profile further comprises: a project name, an editable type of pour, an editable pour rate, an editable pour quantity, an editable pour date, an editable pour start time, digital images, analog images, digital data files, processed digital data files on construction projects, ad mixtures, pounds per square inch (PSI) and project specific notes.

17. The system of claim 1, wherein the processor further inputs a supplier mix design into each construction project profile, wherein each supplier mix design comprises: calcium, silica, pigment, concrete retarder, plasticizer, fly ash, carbon fibers, and additive for increased air entrainment.

18. The system of claim 17, wherein the processor further automatically generates and transmits a construction project executive dashboard and provide a link enabling a user to reject or approve a supplier construction materials mix design.

19. The system of claim 1, wherein the processor compares the construction project site location geocode within the construction project profile to the supplier location geocode of each supplier profile linked to the construction project profile using a predefined serviceable distance for each supplier to the construction project site location geocode.

20. The system of claim 1, wherein the processor further:

calculates a time required for each step of the construction materials pouring process; and

updates the electronic interactive supplier calendar and the electronic interactive contractor calendar with the calculated time(s).

21. The system of claim 1, wherein the processor further:

inputs a contractor pour rating for each contractor into the respective contractor profile; and

compares the pour ratings of each contractor profile and forms a list of contractor profiles from highest to lowest pour rating; and

transmits the list of contractor profiles from highest to lowest pour rating to at least one of: the consultant profiles, the contractor profiles, and the construction projects.

22. The system of claim 1, wherein the processor further:

inputs a supplier pour rating for each supplier into the respective supplier profile;

compares the pour ratings of each supplier profile and forms a list of supplier profiles from highest to lowest pour rating; and

transmits the list of supplier profiles from highest to lowest pour rating to at least one of: the consultant profiles, the contractor profiles, and the construction projects.

23. The system of claim 1, wherein the processor further automatically generates and transmits a visual interactive map with locatable pin using the construction project location geocode to identify a construction project location.

24. The system of claim 1, wherein the processor further stores a plurality of prewritten messages, and selectively transmits one or more of the stored prewritten messages to the supplier profiles and contractor profiles simultaneously associated with the construction project when at least one of a date changes a pour quantity changes, material status changes, and pour rate changes.

25. The system of claim 1, wherein the processor further transmits one or more notifications to the supplier profiles and the contractor profiles associated with the construction project when any modifications are made to the construction project.

26. The system of claim 1, wherein the processor further creates an administrative profile in the geographic database for each of a plurality of administrators, wherein each administrative profile comprises: administrative information, construction projects scheduled, construction projects in progress, a history of construction projects, an administrative client device contact phone number, reports, controls, and profile administration.

27. A method comprising:

providing a processor connected to a database containing a data structure comprising a plurality of supplier profiles, contractor profiles and construction project profiles, wherein each construction project profile is linked to one or more of the contractor profiles and supplier profiles;

comparing a construction project site location geocode within the construction project profile to a supplier location geocode of each supplier profile linked to the construction project profile;

generating a geographic list of supplier profiles within a predefined serviceable distance to the construction site location geocode;

generating a chronological list of supplier profiles from the geographic list of supplier profiles that have availability on a delivery date required for construction materials in the construction project profile;

matching one or more of the supplier profiles from the chronological list of supplier profiles to one or more of the contractor profiles linked to the construction project profile; and

automatically causing procurement, scheduling, coordination and delivery of the construction materials on the delivery date by transmitting the matched supplier profiles to a contractor client device of each contractor profile linked to the construction project profile and a supplier client device of each matched supplier profile, and simultaneously inputting the matched supplier profile on the delivery date for the construction materials into an electronic interactive contractor calendar of the contractor client device and an electronic interactive supplier calendar of the supplier client device of each matched supplier profile, wherein the electronic interactive contractor calendar is customized for each contractor and the electronic interactive supplier calendar is customized for each supplier.

28. The method of claim 27, further comprising:

wherein the database further comprises a plurality of consultant profiles, wherein each construction project profile is linked to one or more of the consultant profiles; and

automatically transmitting the matched supplier profiles to a consultant client device of each consultant profile linked to the construction project profile, and simultaneously inputting the matched supplier profile on the delivery date for the construction materials into an electronic interactive calendar of the consultant client device, wherein the electronic interactive consultant calendar is customized for each consultant.