· Web viewThe microcontroller board will gather the data from the side Cone Coils (cone type coils, not a linear build coil) and send data to the top display. The microcontroller

USPTO Patent Information Thursday, May 18, 2023 William G. Birchard Inventor

USA Provisional Patent, applied for

For Add-on’s 12112019

William G. Birchard Inventor

USPTO Patent Applied for the

The Patent Name is

“ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER TECHNOLOGIES (AMMLIT)”

It uses

“Intrusion & Objects Shapes Technologies & Methods””Gas affected by Magnetics”

Easy to understand description: Introduction

The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is basically a Material Objects Finder

Separator Devices, so the reader can understand, and only as a remote example, it is in the vein of a

Standard Metal Detector, but does not use any it’s technologies or methods; The ADVANCED

MATERIALS MAGNETIC LOCATOR IDENTIFIER is far advanced and has Superior & Enhanced New

Technologies that uses very different and important methods of manufacturing and assembles, only

possible with new and advanced materials, integrated circuit, 3-D Printing, and glues. The Intrusion

Technologies & Methods mentioned above are applied in some of the devices (apparatus) and

are utilizing part of the Earth Motion Movement Magnetic Fields Energies; this is described later in this

USPTO application. I do cite other prior art, but also I have extra non-related patent info that may help

the reader understand the concepts of Intrusion Technologies & Methods.

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General Description, needs and justification

With all the bombing and explosions in our society a device that finds these

awful destructive devices are needed, along with a device that can find artifacts

and hidden treasures and precious materials in the earth and in space, to help all

mankind, this describes such a device/apparatus, the

“Advanced Materials Magnetic Locator Identifier (AMMLI)”

The “Advanced Materials Magnetic Locator Identifier (AMMLI)” Finds almost al l the

known natural and manmade elements (materials) and other combination of different

elements/mater ials together (different materials/Elements in one object) in and

above the Earth (planets and also in the cosmos) at long-range, distant. The Advanced

Materials Magnetic Locator Identifier uses the new Intrusion Technologies &

Methods that can be manufactured in many different physical forms and

configurations.

Listed below: Items listed can be an Active (Xmit), or a Passive (Receive) mode of operation, or both.

Any of the apparatus/devices can work in almost all environments, and operated un-detected. They can

also work with small Cell phones, tablets, and micro-computer like a TI Bagel Black Bone, Arduino.

1.) It can be a Flat Plate Finder Apparatus (FPFA) like a Wall-Plate on the side of a flat

surface of a Building (see Fig 1.), Vehicle, Drone, Space-Ship, Rectangular Box; just about any

object can house the Flat Plate Finder Apparatus. The Flat Plate Finder Apparatus (Wall-Plate)

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plate has sensors and electronics embedded in it; it senses different things like hidden objects,

people, elements, at a long-range, up to several miles. It has a reporting system and sends

information back to the internet via Wi-Fi, or other methods. It can also be manufactured in

Nano Size or larger. It has three sub-parts, the flat plate, and central general computer,

mechanical hardware to remotely lock doors or other mechanical devices.

2.) Or a Hand-Held Handheld Disruptor Unit (HHDU) a type of device l ike a Radar gun

that the police use, but this unit is a small Hand-Held device that can be

mounted in just about any object, it is similar in shape to the Radar gun, but is

a lot different in relation to the new technology mentioned in this application. It

is called the Handheld Disruptor Unit (HHDU). It too can be mounted on a drone or other

type of vehicle.

3.) Or a Reactive Rotating Barrel Unit (RRBU) that finds and detects objects in

the Earth Fields or Space. The RRBU barrel can be manufactured in Nano form

or as big as a skyscraper building, depending on its application. This device can

either gather (col lect)or disrupt the Earth magnetic fields depending on how it

is applied. This is spinning cone barrels to attract the Earth Fields

4.) Or an Elements Discriminator Apparatus Locator (EDAL) device that uses a camera

and a pulsed wave transmitter to find and detect hidden objects for a range of two miles or more.

The EDAL pulsed waves are pointed at a target and the frequencies penetrate the front of

to back of the target and the frequencies actually reflect back to the camera pointed in

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parallel with the pulsed wave device. The software then converts the images and sees what

is hidden. This device uses a somewhat similar technology.

All of these apparatus/devices use some forms of Intrusion Technologies to find

hidden objects, and also i t can be used as a measurement tool in extreme high

temperatures for capturing data in most environmental conditions and finds deep

hidden objects inherent in the Earth and Space, i t i s good to finding artifacts for

archeologist . Wi l l iam G. Birchard is the inventor of the Materials Objects Finder

Separator Devices apparatus, and methods that are sued in the commonly

known Advanced Materials Magnetic Locator Identifier. This technology and equipment

uses the Intrusion Methods and hardware and software to accompl ish this amazing

real world finder and identifier/locater. These are the orig inal inventions, devices,

ideas and theories of Wil l iam G. Birchard. These inventions are bui lt on His

Technologies, Theories, Methods, Hardware/Software, and was created by Wil l iam G.

Birchard; technologies l i sted in this Patent.

US Patent Application #:

Abstract: Background of invention:

1. Field of the invention: The present invention relates to a Earth Motion Magnetic Fields Technologies, Motion Movement Low Energy Magnetic Finder Technology used in the “A Finder Intrusion & Disruption Technologies / Methods” , all in the Super Blue Domain Polyshift Technology V family, The Advanced Materials Magnetic Locator Identifier is like a ground plate or side wall flat plate placed in different positions for finding and detecting many different materials, compounds, liquids, gases, drugs, guns, knives, and explosives (Fig 2). The Advanced Materials Magnetic Locator Identifier can also detect Precious Materials and a variety of other devices. The Advanced Materials Magnetic Locator Identifier has the capabilities

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(software algorithm) of testing for different combinations of materials /compounds to determine if the mixtures are volatile or not. In additional to detecting explosive and other explosive devices the Advanced Materials Magnetic Locator Identifier can also detect all types of movements of most any masses detecting individual elements, including humans and animals, living and non-living things. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER has a very big advantage over other detectors in that it is a very long-range detector reaching up to 1000 feet (or more) above and below the Earth, or in Water and is very accuracy. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER can detect very small quantities, less than500 grams (in most cases), in and above the earth and in some cases 6-10 Meters deep or more. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER can penetrate through walls (most materials), cars, trucks, and many other obstacles while moving in a high speed vehicle. The present invention is found very useful in Law enforcement, customs, military, Airports, and in all security environments. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is unique because it can be used under water for deep sea exploration, and can be operated remotely; this also has great applications for biochemical / hazardous lab conditions. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is completely autonomously and reports all if its information wirelessly back to a security link over the internet or using secured communications. The technology has passed all tests with 100 % accuracy, and No failures. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is a non-destructive detection/locator device allowing it to verify whether there are any guns, weapons (Metal or Non-Metal Shapes), knife or explosive materials, bombs, or any biochemical threats at a given location, or remote locations. Guns and Explosive detection is commonly used at airports, ports, border, buildings, military / field location and national defense , (it Finds most all of the Elements). One of the many uses of the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is to detect Guns, knives, Explosives, or other incendiary devices and Stop terrorist from detonating them, or anyone killing and destroying life or property. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER also has the ability to locate landmines. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is the a basic plate (a board with sensors like coils embedded within) and works within Two (2) Wall Plate sensors, software, a control box, associated hardware as needed, and this total unit is also a wireless system Fig 1. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER saves lives and prevents loss of property.

2. Description of related Art: The major problem associated with current material and explosive detectors is that they have a very short range, large, not reliable, and cost a lot of money. Many types of Guns, Explosives, bombs, and biochemical / hazardous materials (IED and other homemade devices) present a real world threat at airports, schools, government, and transportation operations. This presents a major loss of life, and

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http://en.wikipedia.org/wiki/Airport

http://en.wikipedia.org/wiki/Explosive_material


masses damage to property. Some of the current state of the art detections things being used are Dogs, Mechanical scent detection, X-ray machines, and Neutron activation, Spectrometry, all of which have a very short operating range and are not very reliable for a given time. A Taggant can mean a radio frequency microchip used in automated identification and data capture like RFID or a certain additive added into the explosives. In such cases, electronic devices use radio waves to track and identify items, such as pharmaceutical products, like explosives, not all countries adhere to this convention and many bombs are homemade and not traceable. Some of the devices listed previous are hazardous to humans and cost in the $1 Million USD range. Other like dogs can only operate for shorts periods of time. There are a number of bogus devices like the dowsing devise. None of these attempts to create devices that can detect specific materials such as explosives (or any materials for that matter) have been proven successful in controlled double-blind scientific tests. In fact, all testing of these inventions has shown these devices to perform no better than random chance. A number of dowsing rod-style detection devices have been widely used in Iraq and Thailand, notably the ADE 651 and GT200, where they have been reported to have failed to detect bombs that have killed hundreds of people and injured thousands more. The US of America has put over 10 Billion dollars of research money to make an Explosive detector, detection devices and the best the US government has are canine dogs. The need for a reliable material / explosive detector (low cost) is badly needed to save lives.

Brief description of the drawing

A clearing understanding of the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER invention will be seen with reference to the following description and drawings.

Fig. 1 is a ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER material explosive detection system. Fig. 1 illustrated a perspectives view of Material Detector locator device.

Fig 1 below

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http://en.wikipedia.org/wiki/GT200

http://en.wikipedia.org/wiki/ADE_651

http://en.wikipedia.org/wiki/Thailand

http://en.wikipedia.org/wiki/Iraq

http://en.wikipedia.org/wiki/Dowsing

http://en.wikipedia.org/wiki/RFID

http://en.wikipedia.org/wiki/Automated_identification_and_data_capture

http://en.wikipedia.org/wiki/Automated_identification_and_data_capture

http://en.wikipedia.org/wiki/Integrated_circuit

http://en.wikipedia.org/wiki/Radio_frequency


Fig 1.0

Description of the preferred Embodiment

TECHNOGIES

Overview of the BMD device:

The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER plate systems are built on Motion

Movement Low Energy Electromagnetic Principles, utilizing advances computer programming, unique

mechanically designed coils, and low frequency pulsed wave transmitters. WGB has built and tested

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER. This was done with major defenses

contractors in the USA. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is a Material

detector locator system that has passed all tests with 100 % accuracy, and No failures. The ADVANCED

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MATERIALS MAGNETIC LOCATOR IDENTIFIER can detect most any type of explosives materials or

different combinations of materials at a long range*(in the ground also). The ADVANCED MATERIALS

MAGNETIC LOCATOR IDENTIFIER works on receiving Electromagnetic energy from the existing Earth

Electromagnetic fields, and manmade disturbance energy.

The SUPER-DTUBEE

The “SUPER-DTUBEE” is a cylinder type unit made for deep exploration to locate hidden materials in

sub-depths of the Earth it is frequently call the Advanced Materials Magnetic Locator Identifier

(AMMLI).

The Passive Barrel Unit (PBU) and Small Materials Detector (SMD) were devices that use a somewhat

similar technology as the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER; known as the PBU,

SMD were custom field demonstration models in a different form. We illustrate them in a Pictorial

representation because they are built similar to customer specifications. Most all of the units are built to

the requirements of our customers, and keep extremely confidential. All detectors designs are customer

proprietary information, and No detectors designs (hardware or software) are ever used as a sample or

demonstration model. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER (Fig. 1)

finders/detectors are used to tested special materials in laboratory and fields conditions. These can units

passed with 100 % success, and No failures. The ADVANCED MATERIALS MAGNETIC LOCATOR

IDENTIFIER is custom models built to a proprietary customer’s specification; the units in the ADVANCED

MATERIALS MAGNETIC LOCATOR IDENTIFIER document don’t necessary represent a true physical

picture of the plate, the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER can be almost any

configuration. The SMD Small Material Detector Locator (Hand Held Unit)) was designed for fast, and in

close detection of the target (Hidden Materials). The Reactive Rotating Barrel Unit (RRBU) was

designed for buildings and more of a stationary application, but can be used in vehicles.

Basic ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER demo units:

The basic ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER units can be

manufactured in most any physical configuration; this type of configuration / design would be

considered a stand-alone units. Stand-alone units only require power and only need to be

mounted to most any solid surface.

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General Theory of operation: Named the “ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER”

A very Complex High Field CloudEnergy Wave is transmitted from a directional Antenna / Plate. This is a continuous big burst of CloudEnergy (very directional) similar to a Wave of Magnetic Motion transmitted out to the target; (The Key is the Complex Field of Wave and rich in Harmonics Pulsation, we use and special software algorithms). We then have a receiving set of Motion Antennas that capture part of this wave of motion (Harmonics Pulsation). This is new coil technology design and theory, but very solid and well-grounded in Electromagnets. The coils are wound in a certain method so it distorts an oscillation field pattern that is feed into the coil. This distorts oscillation pattern from the coil is feed into the Antenna, where it is transmitted. The Antenna is of a certain design and has to be tuned physically to the oscillations field (earth field) patterns. In fact the whole system mechanically and electrically has to be in Harmonic Field Balance (regulate). On the receiving coil they capture the Distorts Oscillation Energy (DOEP) Patterns. The Distorts Oscillation Energy Patterns are converted to a Digital bit stream of twelve (12) packets. There are 12 packets that contain all the information form one (1) burst of field energy Transmitted. As the Received Distorts Oscillation Energy, Patterns are being captured in the center (in the heart of the receiving coils, special wound coils) of the receiving coil. The receiving coil has four (4) receptors (small probes that actually strip off the information from the center of the coil) this is where the Electromagnet to Digital conversion happens. These 2/4 (main) receptors are feed into a set of digital latches that capture the digital bit streams and stores them in real time. The sample time is bases on the number three, 3 times the digital bit streams (4) = 12 packets of information each XX mill second to another set of Bi-polar latches. XX is a classified number, so are the frequencies. At this point the 12 packets of information are ready for the PIX chip (microcontroller), computer CPU is ready to process the RAW packets of information from the coils. This is where the Digital Signal Processing (DSP) software (embedded algorithms) processes the data and starts to decipher the patterns. The DSP software is another Key to the operation of the device. To understand the general operation of the DSP algorithms you need to understand the how we use the Distorts Oscillation Energy Patterns. The DSP algorithms are built on the Rate of Change of the Distorts Oscillation Energy Patterns that they receive. The Dv/Dt FN (rate of change) Patterns are integrated over a period of time (integrated over a lower limit –upper limit. As each set of patters (12) are processed the first set of patterns are stored. Then the second sets of patterns are stored and so on until 12 sets are stored. There are two methods of DSP algorithms that can be used.

Modes:

The first methods where we examine and interrogate the Distorts Oscillation Energy Earth Patterns as strictly an Energy Patterns that will all ways have an exact Field Signature Recognition Code (FSRC) for any type of Material. This means that all materials (of any weight,

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size, composition, shape or not ), has a certain unique Field Signature Recognition Code (FSRC) that describes it and identifies it as a unique pattern that the DSP software can store in a Database and attach a label to it so we ( uses) can recognize any type of material. So each FSRC is stored in a relational Database and compared to a known set of FSRCs. The FSRC are a pattern and are converted to a Digital Recognition Code (FSRC) that the computer can understand. The FSRC are then displayed on a LCD (OLED) and read by the operator. The FSRC can be read as a direct description (any language displayed), like C4 and the weight, size, composition, shape, speed, distant, amount, location can also be viewed. The software is very complex and it is too much for this paper to address, complex this topic. The software is very intensive effort and has many safe guards built in to it. The FSRC can also be up loaded to a Satellite connection or encrypted and sent over the internet. The Reactive mode can be utilized with very low power and has much Noninvasive application but can obtain the same results as a Dynamic mode. One of the advantages of the Reactive mode is it uses a One Shot Energy Patterns Transmitting to the Antenna and thereby reducing power requirements and emissions. In certain application this is very important. The Reactive mode can be used in Non-Pulse transmissions guns and Dynamic transmissions guns.

Dynamic Mode:

The second method where we examine and interrogate the Distorts Oscillation Energy Patterns as strictly a Energy Patterns that will all ways be changing and have a certain rate of change (Dv/Dt) (FN) but still produce an exact Signature Recognition Code (FSRC) for any type of Pattern / Material. This means that all Pattern (of any weight, size, composition, shape or not ), has a certain unique Field Signature Code (FSRC) that describes it and identifies it as a unique pattern that the DSP software can store in a Database and attach a label to it so we ( uses) can recognize any type of material. So each FSRC is stored in a relational Database and compared to a known set of FSRCs. The FSRC codes area in this model are a set of changing patterns and are converted to a Field Digital Recognition Code (FSRC) that the computer can understand. The FSRC are then displayed on a LCD and read by the operator. The FSRC can be read as a direct description (any language displayed), like C4 and the weight, size, composition, shape, speed, distant, amount, location can also be viewed. Using the Dynamic Mode the FSRC is always in motion. What make this method very different is this technology gives a dynamic reading on the display, not a static reading. The software is still very complex and it is too much for this paper to address, complex this topic. The software is very intensive effort and has many safe guards built in to it and using the Dynamic mode requires more and much more complex software. The FSRC can also be up loaded to a Satellite connection or encrypted and sent over the internet. The Dynamic Mode can be utilized with low power, but in most cases will require High Power for the Pulsed Energy, and is very invasive. One of the applications is to transmit a High Energy Pulse. The application is C4 or any other type of material can be altered. One advantages of the Dynamic mode is to use a Multi Shot Energy Pulses Transmitted to the Antenna and there by

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sending out a Large Burst of power in a tunneled direction to certain target. In certain application this is very important, in the Dynamic Mode this method becomes an offensive device. The Dynamic mode can be used in Pulse transmissions guns and Dynamic transmissions guns. In the Dynamic mode this technology can be used to disable many different things.

How it works: Dynamic Mode, Transmitting a Pulse Pulsation Wave “ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER”

A simple Description:

Simply put, any material compound or pattern will affect a Pulsated Pulsed Wave by changing its complex harmonics molecular structure (Digital Code Pattern). A Pulsed Wave is comprised of a rich in harmonic frequency signal (A modulated carrier, of a High Frequency Pulse) that is emitted from a High Frequency Coil and is fed by a Push pull Oscillator that changes Phase, frequency and varies within the Natural Earth waves pattern, for a given geographic location. When this Pulsed Wave is emitted (Reactive or Non Reactive) its complex harmonics molecular structure is altered. The Analog/Binary Signature Recognition Code is changed and set to a different alignment kind of like changing the Magnetic pattern on a CD or Magnet tape. We capture this rate of change signal and integrate it into slices of time and store it in memory.

We extract this signal from a set of coils and transducers and stores integrated integrals and integrate the signal over a period of time and store these slices of Signatures Reconciliation Code to memory. We then in software build a recreated picture of the Analog/Binary code (input signal). After we recreate this 3 D picture and Patterns we send it to a PIX chip. The PIX chip performs Digital Signal Processing (DSP) algorithms that will pre-define a data base value and rename and the composition it is scanning.

This scanned picture is then changed to a well-defined digital look up code that is stored in Permanent memory (Hard drive). The Digital Patterned is then sent to an

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Application Program (AP) that will format it and convert to a digital display then sent to a LCD or LED read out. The operator can then read the results on LCD or LED screen.

Our detection devices can be designed as either Reactive or Dynamic, pertaining to the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER. The technology is a little different to the BMDL and the PBU devices. A Reactive device is a receiver, a non- intrusive device that Finds signatures from a generated disturbance field. This device would reactively survey a targeted area for traces of certain materials. The results of this Reactive data gathering would then be fed into a computer program. The computer would analyze the gathered data, compare it to known materials in its database and then deliver results to the display and activate preprogrammed alert systems.

Dynamic devices act similarly, however a Dynamic device would send out a signal and get a reflective signal back, like radar. The Dynamic device would be capable of identifying materials at a greater distance than the Reactive device. The results of this Dynamic data gathering are then fed into a computer chip and the results are then delivered to the display and viewed by the operator.

This is truly a remarkable device. This unit has many applications and cost is very low. It is also safe and easy to use. It is about the size of a radar gun and can be power by remote sources.

This technology is built on The New Poly Blue Domain theory V. This is not Super Blue Domain Poly-Shift IV

What is claimed?

A portable or stationary material detector known as the ADVANCED MATERIALS MAGNETIC LOCATOR

IDENTIFIER

1. A portable or stationary material detector devise (ADVANCED MATERIALS

MAGNETIC LOCATOR IDENTIFIER or Technologies) is made from Polycarbonate,

ABS, Rubber, or high grade plastic only. It is desired that most of the components are

made from high grade plastics and the devise contains very little metal (ferrous) metals.

The shape of the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is

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very important so that the receiver and transmitter have a predetermined distant between

the two main units.

2. A portable or stationary material detector ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER has one On/Off power switch and a LED indicator. The

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER is powered and run

by a computer microcontroller board in the control box or in the plate of the

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER. When the switch is

in the on position, the microcontroller board (TI Beagle Bone Black, and Arduino) sends

out a main transmit pulse every three (3) seconds to start the find/detection process. The

microcontroller board will gather the data from the side Cone Coils (cone type coils, not a

linear build coil) and send data to the top display. The microcontroller board will run its

program to determine if there is a match with the database and display the correct

information on the OLED top display. It can also send info to the Alarm system and over

the internet


LOCATOR IDENTIFIER has one On/Off power switch and a LED indicator. The

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER can be turned off

and on remotely. It is powered from a 12, 18, 24, 48 VDC external battery that can be

plugged in and out of the back of the unit. The 12 VDC battery powers the total

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER. The batteries are i-

on lithium high power batteries, only one can be used at a time and last for about 4 hours

of operation.


LOCATOR IDENTIFIER has a short Low frequency range so it can be set in a stationery

position. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER has

an external induction connection for power and control from a central command station.

This can be used for AC or DC power.


LOCATOR IDENTIFIER that has a camera* (camera optional) and alarm buzzer to alert

the operator of materials found. The camera is used to take videos and photos of before

and after an event occurs. The camera is also us in data analysis.

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LOCATOR IDENTIFIER that has a remote heat sensor so it can shut down the

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER if it over heats.


LOCATOR IDENTIFIER can also be equipped with an access code and thumb key for

security operation. Voice activation is an option, along with an Electromagnetic

signature. *


LOCATOR IDENTIFIER that can run either an OS propriety )used with Linux, that has

USB, SIM Card, RJ45, JTAG, GPIO, wireless connection, GPS and temper proof

features. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER also

has a remote and shutdown from the internet or a central station.

9. A portable or stationary material detector locator system for the detection of different

material such as gold, silver, explosives, chemicals, gases, gels, combination of

combined materials, compounds, living and non-live cells.

10. A portable or stationary mobile detections system that finds drugs, vapors, combination

of metals and electromagnet disturbance’s in the atmosphere (patterns in a disturbance in

Earth Magnetic Motion Fields.

11. A portable or stationary mobile detections system that Finds electrical states, or

combination of electrical states in metals and non-ferrous materials.

12. A portable or stationary mobile detections system that Finds electromagnet disturbance’s

in the electrical fields that surround the earth’s atmosphere.

13. A portable or stationary magnetic motion analyzer apparatus that finds the motion and

rate of change of motion concerning differential vectors in its natural and manmade

states. This embodies the earth as a solid and the atmospheres encompassing it.

14. A portable or stationary electromagnetic apparatus that finds electromagnetic patterns of

different materials and Pattern. All Patterns contains unique code patterns called Field

Signature Recognition Codes (FSRC) codes, Detecting Non Metal objects.

15. A portable or stationary electromagnetic apparatus system that finds the electromagnetic

fields patterns of the earth’s rotation, strength, mass, weight, color, vectors, speed and

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combined forces. All Patterns contains unique code data (patterns) called Field Signature

Recognition Codes (FSRC) codes.

16. A portable or stationary devise that contains a Database of the materials it is searching for

per the specifications given form a list of calibrated FSRC codes

17. A portable or stationary ADVANCED MATERIALS MAGNETIC LOCATOR

IDENTIFIER is a calibrating devise that takes a magnetic picture of the Field Signature

Reconigtion Code FSRC codes and patterns and stores them in a Local on-board database

from a known set of calibrated patterns. The ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER can be used as a calibration device. The calibrated FSRC are

used to compare with what the ADVANCED MATERIALS MAGNETIC LOCATOR

IDENTIFIER finds, they are stored in a computers database and or in the ADVANCED

MATERIALS MAGNETIC LOCATOR IDENTIFIER unit.

18. A portable or stationary devise with a remote sensing device that can receive information

over 1000 feet or more. The sensing coils are very sensitive “Cone Coils” wound in a

certain shape as to receive better, more and faster data /energy.

19. A portable or stationary detector with a Cone Coil that draws in an electromagnetic field

and thereby making it possible to receive long range data over a short period of time ,

with in milliseconds. Mass amounts of data are feed into the Cone Coils receivers in the

side of the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER unit,

with very little power needed.

20. A portable or stationary detector that has an OLED display on top of the unit for easy

viewing. It allows the operator to see, distant, amounts, types, and other information

regarding the targets, or different materials.

21. A portable or stationary detector that has a high power fan on the back of the unit that is

controlled by the main board computer inside the frame.

22. A portable or stationary detector with a Low frequency transmitter in the form of the

units that emits low power, low frequency pulses so it can receive a reflective amount of

energy that is rich in harmonics waves and will bounce back a signal to the receiving

tubes. The Transmitter has to be controlled by the computer board in the rear of the

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER. The transmitter

has to have its power and frequency rate of change varied so the receiver Cone Coils can

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get in sync with the forward transmitters rate of change. This is one of the keys to correct

the operation of the ADVANCED MATERIALS MAGNETIC LOCATOR

IDENTIFIER.

23. A portable or stationary front semi-rectangular antenna for transmitting the forward

energy to the target. It is a stainless steel cup and is coated with protective rubber, using a

Bow-Tie antenna. The Bow-Tie antenna looks like a bow tie someone would wear, or a

coat hanger looking antenna, that send out very directional pulse wave energies in a cloud

of energy.

24. A portable or stationary detector that has a booster coil that is inside of the antenna and

helps balance out the energies and creates more power.

25. A portable or stationary detector that has an inter structure held together by nylon

composites rods. The nylon rods hold the structure together by using epoxy, and small

plastic screws. It is critical that only plastic is used near the transmitter in certain areas.

26. A portable or stationary detector that has certain key components places in certain

location so there is no interference from other components. All parts and components

have to be place in the right location to make the ADVANCED MATERIALS

MAGNETIC LOCATOR IDENTIFIER work.

27. A portable or stationary detector that uses Marine Grade Plastics for its interring front

middle and end plates. This type of plastic has a high dielectric that stops it from

transmitting low energy pulse waves; Peak Material / PTFT is one of the best choices, as

it is rated for a High Temp.

28. A portable or stationary detector that has a strong structure to hold the inter units together

and act as a partial ground plane to isolate Electromagnetic Energies from entering the

back sensing computer board. The receive Cone Coils are connected to the computers

A/D input converter on the computer board; this is an A/D board with very high

resolution 24 Bits.

29. A portable or stationary detector that has many Cone Coils that are moved my an

induction motion motor as to move the Cone Coils allowing them to receive magnet

motion earth field energy. Each Cone Coil is one assemble and a self-contained devise.

This is call the Motion Cone Coil Receiver (MCCR), some of these coils rotate in a barrel

movement.

16


30. A portable or stationary detector having a MCCR assemble unit, that is power by a small

DC voltage motor providing the electromotive force thereby moving the Cone Coils in a

back and forth motion thus creating a vector motion so it can gather Electromagnetic

energies from the earth’s atmosphere fields. The Cone Coils and how they move and are

wired together are the main transducers of the ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER systems. This is a new type of Motion Magnetic Sensor.

31. A portable or stationary detector using glue with a very high resistant to electric and

Magnetic energy, this is an Epoxy and other glues with very little water content and a

high dielectric. All the glues have to cure for at least a three (3) day period.

32. A portable or stationary detector that is built and design from a Pre manufactured Tube of

Fiberglass Epoxy that is strong and can be the main housing for the ADVANCED

MATERIALS MAGNETIC LOCATOR IDENTIFIER, and some of the other Birch

Finder/Detectors.

33. A portable or stationary detector housing that is built and design to with stand 150

Degree Center grate Temperatures protecting the internal components of the detectors.

A portable or stationary detector that uses propriety ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER software to read FSRC codes patterns from the receive Cone Coils located on the plate of the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER. The FSRC codes are trade secrets of William G. Birchard. The FSRC codes are first determined from a ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER calibrator chamber unit. This unit fines the FSRC codes of the material / or materials in question. The ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER calibrator chamber unit then loads these FSRC codes into a digital format and stores them in a secured database. The Database has its own format, keys access and arrangements that make them confidential information. The FSRC codes are stored in an encryption program for later use. All FSRC code are used in a Dynamic mode, that is the only way to read them is to use a certain Rate of change differential formulas that requires a computer to Compute areal time Motion Calculus within the sequencer of a computer Algorithms. This technology uses a number of different equations: Rate of Change (RofC) FN, Different of Potential (DofP).

The Algorithms are similar to 3D printing as it magnetically slices the materials into grouping of patterns, and the recombines them in to readable data.

Algorithms are essential to the way computers process data. Many computer programs contain algorithms that detail the specific instructions a computer should perform (in a certain specific order) to carry out a specified task. Thus, an algorithm can be considered to be any sequence of operations that can be simulated by a Turing-complete system, or within a real time movement of data.

17

http://en.wikipedia.org/wiki/Turing_completeness

http://en.wikipedia.org/wiki/Computer_program


Typically, when an algorithm is associated with processing information, data is read from an input source, written to an output device, and/or stored for further processing. Stored data is regarded as part of the internal state of the entity performing the algorithm. In practice, the state is stored in one or more data structures. This is a very classical approach and a general definition, but not in the case of real time data and FSRC code as pertaining to the invention of software by William G. Birchard.

For some such computational process, the algorithm must be rigorously defined: specified in the way it applies in all possible circumstances that could arise. That is, any conditional steps must be systematically dealt with, case-by-case; the criteria for each case must be clear (and computable). This is partially correct to some degree, but when real time date is changing in real time motion (outside of the CPU, and computer hardware) the algorithms must do the same. That is all data is dynamic and changing at a rate of change so the CPU or inside of the computer hardware can see what the real time (outside real world) changes are. This is what FSRC codes are, true motion codes that change at a certain rate of change. What this technology does makes a standard computer a Rate of Change Motion computer.

Because an algorithm is a precise list of precise steps, the order of computation will always be critical to the functioning of the algorithm. Instructions are usually assumed to be listed explicitly, but in the case of a Motion Computer they have to change as the real time data changes. It is like creating a software motion movement motor within the computer hardware. The FSRC codes are complex and contain vase amounts of information, they can only be obtained by the derivation of the date of change of patterns. This is what the software in the Birch Material Detector Locator and ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER (AMMLI) does.

34. An AMMLI Material Calibrator Chamber Devise (AMCCD) that deciphers and

converts the FSRC codes to retable patterns, and motion slices in electromagnetic fields.

The AMCCD first determined the Rate of changes in relation to the fields of the earth and

its movement. The AMCCD fines the FSRC codes of the material / or materials in

question. The AMCCD calibrator chamber unit then loads these FSRC codes into a

digital format and stores them in a secured database.

35. A portable or stationary detector that Finds motion and movement of materials and

human beings. In and out of building for the purpose of location and identification. The

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER also finds the

change in molecular change of patterns Reference (Glenn Seaborg).

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http://en.wikipedia.org/wiki/Data_structure


36. A portable or stationary finder/detector that houses and maintains a Secure Data Base of

Elements codes , This is a propriety Data base used to compare FSRC codes of a

predetermined set of Elements FSRC codes.

37. A portable or stationary unit the AMMLI Material Calibrator Chamber Devise (AMCCD)

or the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER unit that has

a set of Magnetic Codes in a Database for particular materials/elements that needs to be

detected founded. Each element or elements (all materials) have certain magnetic patterns

(magnetic codes) this technology stories these codes in a database.

38. A portable or stationary finder/detector that can detect almost all of the basic Elements at

a long-range and at certain depth into the earth and space.

39. A portable or stationary detector that applies William G. Birchard Technologies (seen on

the front page of this document) and Equations in software and hardware to make this

technology work, in conjunction with a real time software / hardware engine and

Databases visualization big data technology .

40. A portable or stationary detector that accesses the IoT (internet) to apply certain upgrades

and other technologies for daily operations. This technology also used GPS and

encrypted codes and Databases.

41. A portable or stationary detector that uses special Computer board like the Beagle Black /

Green, Small boards and A/D boards and other Ti devices (Arduino).

42. A portable or stationary detector that uses Low and Light Power Wave Signal “Poke and

Peak” technology to detect the Material under test or the Target. “Poke and Peak” is

like feeling the target with an invisible probe and feeling the results as it is sent back to

the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER caterpillar

magnetic gathering devise in the ADVANCED MATERIALS MAGNETIC LOCATOR

IDENTIFIER unit.

43. A portable or stationary detector that uses “Intrusion & Disruption , Disturbance

Methods” and Technologies along with other methods for detecting and controlling

Atmosphere conditions in an open and closed chamber, such as a shell casing and or

explosive sealed container.

44. A portable or stationary detector that can be used in Long Range Drones to detect Very

Long Range Targets using the technology in this Provisional Patent Application.

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45. A portable or stationary detector that uses can be used in UAV, Space, and submarines /

deep sea exploration, Military and Commercial applications.

46. A portable or stationary detector that finds through Walls and other Metals and Stone /

Earth through almost any Materials on earth and in space.

47. A portable or stationary detector that finds can be used with a Smart Call phone for

displaying the Target and guiding the Technology to it intended applications. The Cell

phone needs a small device that goes into the min-usb port and works with an App on the

Cell phone or tablet/portable device

48. A portable or stationary detector that uses low voltage as a mobile power source (5VDC,

-12 VDC), along with a Solar backup system, and stand alone grid power, as an

alternative method of supply (110-115-220VAC).

49. A portable or stationary detector that internally uses inductive energy as a method of

transmission internally in the devices and externally to other targets in some cases.

50. A portable or Stationary measurement tool for extreme high temperatures

environments capturing data in most hazardous and dangerous conditions.

51. A portable or Stationary devise that changes the inter structure of a closed sealed body,

changing its retable FSRC codes and depositing components / parts, rendering it into

certain states.

52. A drone with a small tube that is extended down from the drone and is a suction for air, it

uses a small explosive device the create the suction, the drone hovers above the target

area and has this technology and or a vapor sensor in the drone, when a substances is

detected (bad vapors) a signal RF is send to a cell phone or a central computer for

viewing. This is an add on

Specifications for the General description of the

“ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER”

“An Apparatus, System and Technology description”

Designation ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER AMMLI-122410.01

Nomenclature ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER AMMLI-AMMO12-14

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Classification Material Finder Detection Locator System & Technology “identifier and finder”

Code name: Materials Objects Finder Separator Devices (MOFS) MOFS121219-227

Physical Sizes: Handheld Disruptor (HHD) (10”X12”X6”), Potable Reactive Rotating

Barrel Unit (RRBU) (size depends on the application),

General Physical Size: inches, Combined ADVANCED MATERIALS MAGNETIC LOCATOR

IDENTIFIER Plate Systems, the size may vary

Dynamic Unit Size: ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER Plate

Classified *

Classified documents to authorized Verified Customers

1. Description of the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER technology using A-

Plate-type apparatus 122410.01system.

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER -Plate-122410.01consists mainly of the

following parts:

(1) Dynamic Gun Unit (DGU) (ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER

AMMLI3034609) * optional

(2) Reactive Rotating Barrel Unit (RRBU) (ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER RBU3034609)* optional

(3) Signal and image processing subsystem hardware and software, including digital electronics

and computer network for digital signal processing, displaying and image management with

which operators examine the images of different explosives or materials.

(4) Control and monitor subsystem hardware and software, which is based on computer and

motion controllers , to control and monitor the total finder/detection and inspection system

to make it work in an effective manner, and coordinated way to work with internal sub-

systems.

(5) AGU and PBU subsystem including a platform mounting system and its associated

electronics components. Mechanical hardware

21


(6) Safety interlocks system and Electromagnetic Sensing Meter to provide a safety conditions

for operator and serviceman. Mechanical hardware

2. Configuration of the system

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER -Plate-122410.01 has been equipped

with a two mounting platform for the AGU and PBU scanning and receiving devices. Plus all

electronics power supplies, Monitor, computers and computers interfaces.

3. Advantage of the system

(1) highest penetration

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER -Plate-122410.01generates Maximum

Power Levels that can project and penetrate fully loaded containers, buildings, structures,

shells, grenades, as well as human targets

(2) highest detection effectiveness

An important advantage of ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER -Plate-

122410.01is the highest detection effectiveness for any detection system 99 -100 % reliable.

(3) Penetration using Pulsed Waves Signals (PWS), Resolution PW Electromagnetic Resolution

Since the PW frequencies are very low the range is greatest when varying the Square Waves

to its full potential. All frequencies are classified. .

(4) comprehensible and clear high definition of images

Based on the Electromagnetic frequencies and resolution of the display methods, the

Detection and or Inspection system can generate very clear and precise images.

Computers programs also enhance the image and provide automatic detection alerts. The

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER Plate can locate a target to within

One meter of the center of the finder beam.

4. Equipment’s list of the system

22


ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER -Plate-122410.01will deliver following

equipment, (Electronic Hardware and Software) (Mechanical Hardware) a complete ready to

use system [Plug in and Use]

(1) ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER S-122410.01 Transmitting Device

Parameters

Item ADVANCED MATERIALS

MAGNETIC LOCATOR

IDENTIFIER -Plate

122410.01

Road Plate * option n/a

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER Plate 1 set

Cell phone Cube plug in n/a

Long Range Sensors n/a

Supporting Hardware 3 set

(2) PBU Rotating Detection Barrel

Item 1pc

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER -Plate-

122410.01 detector and its related circuits

1 unit

Enclosed Bow-tie Antenna System n/a

Enclosed Receiver Panel n/a

Basic hardware mounting equipment 1 set

Pulsed Wave Power supply 110,220,440 ACV 12-48 VDC 1 set

23


* Contact WGB

(3) Signal and image processing subsystem * some items are an option

Item Computers and Software 1 unit

Image sample workstation and its software 1 set n/a

Operator workstation and its software 3 set n/a

Supervisor workstation and its software* 1 set as needed

Control server and its software as well as user database* 1 set n/a

Mass storage system (including 1 computer)* 1 set n/a

Computer network including HUB/Switch by OEM* IP 1 set as needed

Printer by OEM* 1 set as needed

Uninterrupted power supply(UPS)* 8 set as needed

(4) Control and monitor subsystem

Item Standard equipment 1 unit

System control center (including 1 computer) 1 set

System control cabinet * 1 set n/a

Authorized Check-in station* 1 set n/a

Authorized Check-out station* 1 set n/a

Uninterrupted power supply(UPS)* 1 set as needed

CCTV system (including 1 monitor and 2 camera)* 1 set as needed

24


Public address system* 1 set as needed

Electrical power distribution & protection system* 1 set as needed

Emergency stop button 1 set

(5) Equipment Platforms and Subsystem

Item 1 unit

1 small wall or vehicle platform 1 set n/a

Controller circuits for the ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER

1 set as needed

Power supply for the ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER computer equipment

1 set as needed

(6) Electromagnetic protection and safety subsystem

Item 1unit

Side Shielding of the Pulsed Wave 1 set

Back and Side Shielding of the Pulsed Wave 2 set

Safety interlock control system* 1 set

Audio & visual alarm system 1 set

Visual Transmit Light& alarm indicator 3 set

All devices and transmitters are FCC compliant 2 set

(7) Software package

25


Item 1 unit

Automatic control software (embedded) 1 set

Field safety control software (embedded) 1 set

Computer Image acquisition software package 1 set

Computer Image processing software 1 set

Operation and control software / OS propriety 1 set

Supervisor workstation software* 1 set as needed

Control server and user database software* 1 set

Mass data storage management software* 1 set

Software and Hardware Safety check, self-diagnostic 1 set

Flash memory DB FSRC FSRC Codes Security Based 1 Set

5. Specification of the system for the

(1) General Specification

Footprint and Distant ADVANCED MATERIALS MAGNETIC LOCATOR

IDENTIFIER -Plate-122410.01

AGU See Spec sheet below n/a

PBU See Spec sheet below n/a

Numbers of operators needed 1 can be a remotely controlled IP

Time of continuous operation ≥4 hours 5 min.

Operating temperature -20℃~+50℃ 7 days a week

Storage temperature -20℃~+50℃

26


Relative humidity range 0~99%, non-condensing

DCV Power requirements 12-18-48 VDC .10 % Transients

ACV Power requirements 110,220,440 ACV S. Phase, 50-60 ±1Hz

(2) Detection source and imaging system (Send and Receive System)

Max. energy of AGU from Bow-Tie 30 Mil. Watts (.030 to max 20 K Watts

This may be increased as needed 5 watts

Scanning detection or acquiring a target 50-60 Mill Sec. See the Spec below

Typical throughout of a PW into a

Container More power may be needed

Total penetration within 60-80 Mill Sec.

Penetration depth/width , most all metals 6” to 10 “ of *depends on the power

In most cases more depth can be obtained Optional

Penetration Metals & Non Metals Water, Gasses, Jells Combination * contact

WGB

Penetration depth/width in ground At 500 Feet 1Meter * Depends on the

ground dielectrics, resistant * Contact

WGB

Penetration of depth/width, most Non

Metals

Walls and Structures 100 Meters * This

depends on the structure, contact WGB

Spherical Resolution Detection in the Earth Advanced Detection for below ground

27


intrusion and detection * Contact WGB

Finite Detection Ability of explosives

The ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER Plate close range

100 Gm.

> than 500 Grams at 2000 Feet See the

Specification sheet below

Image Contrast Sensitivity and Display Depends on the Electromagnetic FSRC

codes

Max. Distant of the Target 2000 Feet * depends on power

Electromagnet-Analog to Streaming Digital 16bit (65536) * contact WGB 24 Bit

Image acquisition mode and methods Real-time hardware < 10 Ns, synchronized

(3) Detection and Viewing Working Station (equipment)

Detector ADVANCED MATERIALS

MAGNETIC LOCATOR IDENTIFIER Plate

units

2 units or more as needed

Computer monitor 21” low radiation Trinitron dual-screen

Monitor resolution 1280x1024*contact us for more

information

Memory of computers 2 GB *

Storage of local hard disk 320 GB,

Storage of mass storage system 500GB

Image grey scale level / Color 16 level (65536) * color in most cases

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(4) Detection Image processing functions and Video Camera specs. Optional

Local zoom: .25,.50,1 ,4, 10 on screen

Zoom mode: On screen and Power +/- *

Window OS and compatible hardware and software

Local histogram equalization

Edge and Contras Pixel Enhancement FSRC dissemination

Black and white image modes FSRC dissemination

Color Image and mapping FSRC dissemination

Brightness and contrast adjusting, on screen FSRC dissemination

Brightness scanning, on screen FSRC dissemination

Database Look-up table FSRC codes

High pass filter, built into the hard ware

Medium filter, built into the hard ware

Background striping, built into the software

Mirror, Rotate, Adjust , built into the software FSRC dissemination

Power Amplifier Glass Lens * future built into the advanced models Contact WGB

Absorption rate Classified * Contact WGB

CAD , * Not needed *

Stop, Pause, Acquire Hardware controller,

Image print USB from the computer

Custom shortcut keys On screen

Comparison of image , user package supplied by WGB

Linear transform of DSP supplied by WGB

Logarithm transform supplied by WGB

RED Stop Panic Button On the hardware

Image storage Hard drive or disk, Flash memory

Image recall On board software buffer

Operator working log records, on hard drive and CD

29


6. Radiation of Electromagnetic Waves (safety first)

The ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER S is below FCC

frequencies Regs. 18 ,15

A full report upon a valid request from

WGB

WGB ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER S has also done in

house testing with many different

commercial devices and has found NO

interferences to any products

Engineering Test Lab and Field

We adhere to any WHO specification 1 year study by a Certified MD in the USA

General Specification and user Specification listed below:

Users Technical Specifications: by WGB

ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER -Plate has the following properties: Dynamic and Reactive models

Both the Dynamic and Reactive of the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER Plate units can detect the below materials, carried by a Human or concealed in any part of a vehicle. Air bags or contained in Plastic, or other Metals.

Finds any explosive material, and Other materials Gold Silver Copper WaterAmmunition, TNT, C-4, and Gun powder, Nitroglycerin, fertilizer, baking soda, ammonia, RDX/NITRATE, UREA NITRATE, TATP/HMTD, CHLORATE/BROMATE, NITROGLYCERIN, NARCOTICS. Most all types of liquids, solids, gases

Determines the composition of almost any material

30


Determines the amount of the material Can detect IR Wire trip devices Can detect RF communication Has a range of 2000 feet Please read the Specs above for Reactive ADVANCED

MATERIALS MAGNETIC LOCATOR IDENTIFIER units Finds explosives going faster that 60 MPH in a moving vehicle, fixed or moving Acquires a Target within 50-60 Milliseconds Dynamics Finds @ 2000 Ft Within 50 Milliseconds Fixed Can locate a Target with in a 2 Meter Radius at 2000 feet Can Locate a Target within a Square area (Mushroom Foot print) at a distant of

2000 Feet Reactive Barrel Unit * The Dynamic and Reactive units can detect as little as 500 Grams at 2000 Feet On-Screen Visually or Computer location On board Monitor LCD/LED, and Computer outputs High Resolution Converter hardware High Resolution computer screens Changes Frequencies, for NO-Lock on Mode * Low Frequencies device Transmitter power is less than 20 Watts Power requirements 110-220-440 ACV or 12-19-48 DCV can be used. Thumb Recognition and Pass codes used for security* Has commercial applications, in the Reactive mode Failsafe, tamper-proof device Cannot be reversed engineered * hard Can be remotely turned on and off * Very portable - light weight Designed to be used as a Hand-Held device or placed in a Reactive mode (Receive

mode)only Designed as a Hand-Held devise in an Active mode (transmitting) only Can be programmed to connect to a firing control system* For security and prevention of another 911 it can be programmed for

o intruder alert, o other security functions oro Notification to police and fire departments.

Automatic Monitoring– monitor operations and functions Voice Response and Recognition– responds from single or multiple voice

commands* Available with multiple “Plug-In” upgrades at additional cost to the user* Programmable to detonate an explosive at long range** Embedded Intel Texas Instrument Chips for Software * Operators in temps from -20℃~+50℃ Battery life depends on the usage in the Plate Between 21-30 Lb. for the Dynamic detector ADVANCED MATERIALS MAGNETIC

LOCATOR IDENTIFIER 15-22 Lbs.

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Between 45-60 Lbs. for the Reactive detector ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER 15-22 Lbs.

Size of the Dynamic detector TBD Different requirements Size of the Reactive detector TBD Different requirements No calibration required, Database required for some materials If defective return to Andronics Super Blue Penetration in ground of 1 Meter at 500 feet Penetration in closed containers 100 % of the container Penetration of Water Tankers 100 % of the Tanker Certificated by a US government lab. For Frequency and FCC regulation Manufactured by the USA Point of Origin USA

Some Specifications are classified, but we provide some general figures so the customer has some general-purpose details about the products. Some customers may need these to get familiar with the ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER S specification. The actually sizes can be very small. .

Add-on and Options:

All ADVANCED MATERIALS MAGNETIC LOCATOR IDENTIFIER models can have the following options: Electronics Specifications

1. Full connection to the internet **2. Use Wireless Power and Communication** 3. Have a camera tracking system**4. Adapters for solar, wind and hydro power, battery backup units (we can provide** 5. External alarm horns and Speaker system**6. A internal data recording system**7. Tamper proof alarm systems**8. RF communication**9. Remote control of the unit**10.Extended Range and foot print**11. Internal and External Database for all materials**12.USB Computer interface and extended cables**13.Full Automatic Scanning modes**14.Security Locking system (Thumb print recognition)**

**Options call or email

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Documents

· Web viewThe microcontroller board will gather the data from the side Cone Coils (cone type coils, not a linear build coil) and send data to the top display. The microcontroller