U.S. patent application number 14/263668 was filed with the patent office on 2014-09-18 for environmental measurement display system and method.
This patent application is currently assigned to LEEO, INC.. The applicant listed for this patent is Leeo, Inc.. Invention is credited to Eddy Y. CHAN, Adam M. GETTINGS, Andrew G. STEVENS.
Application Number | 20140279574 14/263668 |
Document ID | / |
Family ID | 51531722 |
Filed Date | 2014-09-18 |
United States Patent
Application |
20140279574 |
Kind Code |
A1 |
GETTINGS; Adam M. ; et
al. |
September 18, 2014 |
ENVIRONMENTAL MEASUREMENT DISPLAY SYSTEM AND METHOD
Abstract
Environmental measurement display systems that can be used in
home and commercial environments are disclosed. The environmental
measurement display system can include an environmental sensor
array, signal-processing circuitry, a power supply, a display
device, a communications system, a data storage system, and a
remote data visualization system.
Inventors: |
GETTINGS; Adam M.; (Red
Wing, MN) ; CHAN; Eddy Y.; (Mountain View, CA)
; STEVENS; Andrew G.; (Palo Alto, CA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Leeo, Inc. |
Palo Alto |
CA |
US |
|
|
Assignee: |
LEEO, INC.
Palo Alto
CA
|
Family ID: |
51531722 |
Appl. No.: |
14/263668 |
Filed: |
April 28, 2014 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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PCT/US2014/029133 |
Mar 14, 2014 |
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14263668 |
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61802310 |
Mar 15, 2013 |
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61847079 |
Jul 16, 2013 |
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61847555 |
Jul 17, 2013 |
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61858563 |
Jul 25, 2013 |
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Current U.S.
Class: |
705/306 |
Current CPC
Class: |
G06Q 50/10 20130101;
G06F 21/6218 20130101; G06Q 10/08 20130101; G06F 21/602 20130101;
G06Q 30/0278 20130101; G06F 11/3089 20130101; G06Q 50/16 20130101;
G01N 33/0062 20130101; G06Q 10/0832 20130101 |
Class at
Publication: |
705/306 |
International
Class: |
G06Q 50/16 20060101
G06Q050/16; G06Q 30/02 20060101 G06Q030/02 |
Claims
1. A property monitoring system for monitoring property at a first
location comprising: an environmental sensor system at the first
location, wherein the environmental sensor system is configured to
produce data on an environmental quality factor; a first data
storage system configured to have first database in communication
with the environmental sensor system, wherein the first database is
configured to have data on a market value for the property; a
processor configured to calculate a product value by modifying the
market value with the data for the environmental quality
factor.
2. The system of claim 1, wherein the environmental quality factor
comprises temperature.
3. The system of claim 1, wherein the environmental quality factor
comprises humidity.
4. The system of claim 1, wherein the environmental quality factor
comprises oxygen.
5. The system of claim 1, wherein the property comprises perishable
property.
6. The system of claim 1, wherein the property comprises
produce.
7. A method for monitoring property at a first location comprising:
sensing an environmental quality factor at the first location,
wherein the sensing comprises sensing with an environmental sensor
system; retrieving from a first data storage system a market value
for the property; calculating with a processor a product value by
modifying the market value with the data for the environmental
quality factor.
8. The method of claim 7, further comprising updating the market
value before the calculating.
9. The method of claim 7, further comprising recording the data
from a first time and second time, and wherein calculating
comprises modifying the market value with the data from the first
time and data from the second time.
10. The method of claim 7, wherein the environmental quality factor
comprises temperature.
11. The method of claim 7, wherein the environmental quality factor
comprises humidity.
12. The method of claim 7, wherein the environmental quality factor
comprises oxygen.
13. The method of claim 7, wherein the property comprises
perishable property.
14. The method of claim 7, wherein the property comprises
produce.
15. A method for monitoring properly at a first location
comprising: attaching an environmental sensor system to the
property; sensing an environmental quality factor at the property,
wherein the sensing comprises sensing with the environmental sensor
system; retrieving from a first data storage system a market value
for the property; calculating with a processor a product value by
modifying the market value with the data for the environmental
quality factor.
16. The method of claim 15, further comprising updating the market
value before the calculating.
17. The method of claim 15, further comprising recording the data
from a first time and second time, and wherein calculating
comprises modifying the market value with the data from the first
time and data from the second time.
18. The method of claim 15, wherein the environmental quality
factor comprises temperature.
19. The method of claim 15, wherein the environmental quality
factor comprises humidity.
20. The method of claim 15, wherein the environmental quality
factor comprises oxygen.
21. The method of claim 15, wherein the property comprises
perishable property.
22. The method of claim 15, wherein the property comprises produce.
Description
CROSS-REFERENCE TO RELATED APPLICATION
[0001] The present application is a continuation of PCT Application
No. PCT/US2014/029133, filed 14 Mar. 2014, which claims priority to
U.S. Provisional App. No. 61/802,310, filed 15 Mar. 2013; U.S.
Provisional App. No. 61/847,079, filed 16 Jul. 2013; U.S.
Provisional App. No. 61/847,555, filed 17 Jul. 2013; and U.S.
Provisional App. No. 61/858,563, filed 25 Jul. 2013, all of which
are incorporated by reference herein in their entireties.
TECHNICAL FIELD
[0002] Environmental measurement display systems and methods are
disclosed relating generally to the field of air quality
measurement.
BACKGROUND
[0003] Humans are capable of detecting both toxic and non-toxic
chemicals with their sense of smell and without specialized
training it can be difficult for humans to differentiate between
safe chemicals and harmful chemicals. Some chemicals can be harmful
in concentration, but harmless in small amounts, and it can be
difficult for humans to differentiate between safe and harmful
levels by smell alone. Finally, the definition of safe and harmful
levels can vary depend on the environment and on individual
sensitivity of a person (or a product stored in an environment).
Thus, there is a need in the environmental sensor field to create a
new environmental measurement display system and method.
[0004] Real estate derives a great deal of value from environmental
quality of both air and water. A verifiable environmental report
for a property showing excellent, neutral or poor environmental
quality can have a direct effect on the price of both residential
and commercial real estate, as well as rental, leasing and
hospitality rates. It would be to the advantage of a real estate
owner or seller to demonstrate the quality of their environment,
and a financial premium estimate for a good environmental score,
and a financial penalty estimate for a low environmental score can
be assigned, allowing buyers and sellers to properly value property
in many different transactions and environments.
[0005] Perishable goods can go bad if not stored properly, and
things like grains, eggs, meat, fish, seafood, dairy products, and
produce can be sensitive and cause food poisoning if not stored
properly. Perishable products verifiably stored in proper
environments may be sold at a premium to other products not
necessarily verifiably stored in proper environmental conditions.
For example, Kobe Beef stored in optimal conditions can be
certified as premium stored, and can be sold for a higher premium,
depending on the quality of the environment. Similar to how
diamonds are graded, even though the naked eye cannot tell the
difference, a finer measurement can differentiate between quality,
and this measurement for perishable goods can be the storage
environment.
[0006] Valuable documents or antiques require specific environments
to ensure they maintain their condition and value. An antique that
has been stored in an optimal environment can be expected to sell
for a premium, and an environmental sensor measurement of the
storage environment can verify the quality of the storage
environment.
[0007] Accordingly, a system and method for tracking and reporting
the environmental quality and the respective impact on the value
for specific real estate, perishable goods, and valuable documents
or antiques is desired.
SUMMARY OF THE INVENTION
[0008] A system for monitoring air quality in an environment is
disclosed. The system can have a first air quality sensor array
located in the environment, a microprocessor connected to the
sensor array, a power source having a wall plug, a server, and a
first wireless communication system. The wireless communication
system can be connected to the microprocessor. The communication
system can be configured to transmit data from the first sensor
array to the server.
[0009] A method for monitoring air quality in an environment is
disclosed. The method can include plugging an air quality
monitoring system into a wall power outlet in the environment. The
air quality monitoring system can have a first air quality sensor
array. The method can include sensing an air quality factor in the
environment with the first air quality sensor array. The method can
include converting the air quality factor into a data signal, where
the converting can be performed by the air quality monitoring
system. The method can include wirelessly transmitting the data
signal from the air quality monitoring system to a server.
[0010] Furthermore, a method for monitoring air quality in a first
environment and a second environment is disclosed. The method can
include positioning a first air quality monitoring system in the
first environment. The first air quality monitoring system can have
a first air quality sensor array. The method can include
positioning a second air quality monitoring system in the second
environment. The second air quality monitoring system can have a
second air quality sensor array. The method can include sensing an
air quality factor in the first environment with the first air
quality sensor array, and sensing the air quality factor in the
second environment with the second air quality sensor array. The
method can include converting the first air quality factor into a
first data signal with the first air quality monitoring system, and
converting the second air quality factor into a second data signal
with the second air quality monitoring system. The method can
include wirelessly transmitting the first and second data signals
to a server.
[0011] Also disclosed is an environmental monitoring system that
can have a first sensor system, a server and a data storage device.
The first sensor system can be located in a first environment. The
first sensor system can be configured to measure a first
environment quality factor and output first sensor data. The server
can be configured to receive the first sensor data from the first
sensor system. The server can be configured to process the first
sensor data and output first economic data for the first
environment. The data storage device can be configured to store the
first economic data for the first environment.
[0012] An environmental monitoring method is disclosed that can
include detecting a first environmental quality factor in a first
environment with a first sensor system. The method can include
outputting a first sensor system data from the first sensor system.
The method can include receiving the first sensor system data by a
server. The method can include calculating by the server a first
economic data for the first environment. The server can use the
first sensor system data in the calculation.
[0013] A further environmental monitoring method is disclosed. The
method can include detecting at a first time with a first sensor
system a first environmental quality factor in a first environment.
The method can include outputting a first sensor system data from
the first sensor system. The method can include the server
receiving the first sensor system data. The method can include the
server comparing a first economic data for the first environment to
a second economic data. The comparing by the server can include
outputting an economic delta for the first environment. The
economic delta can be a difference in the economic state, for
example over time or in comparison to another environment or
environmental factor.
[0014] A property monitoring system for monitoring property at a
first location is disclosed. The system can have an environmental
sensor system at the first location. The environmental sensor
system can be configured to produce data on an environmental
quality factor. The system can have a first data storage system
configured to have a first database in communication with the
environmental sensor system, wherein the first database is
configured to have data on a market value for the property. The
system can have a processor configured to calculate a product value
by modifying the market value with the data for the environmental
quality factor.
[0015] Additionally disclosed is a method for monitoring property
at a first location. The method can include sensing an
environmental quality factor at the first location. The sensing can
be performed with an environmental sensor system. The method can
include retrieving a market value for the property from a first
data storage system. The method can include calculating with a
processor a product value for the property by modifying the market
value with the data for the environmental quality factor.
[0016] Furthermore, a method for monitoring property at a first
location is disclosed. The method can include attaching an
environmental sensor system to the property. The method can include
sensing an environmental quality factor at the property. The
sensing can be performed with the environmental sensor system. The
method can include retrieving from a first data storage system a
market value for the property. The method can include calculating
with a processor a product value of the product by modifying the
market value with the data for the environmental quality factor
when the sensor system is attached to the property.
[0017] An environmental monitoring method is disclosed. The method
can include sensing an environmental quality in a first
environment. The sensing can be performed with an environmental
quality monitoring system. The sensing can produce environmental
data.
[0018] The method can include recording the environmental data in a
first database. The method can include encrypting the environmental
data. The method can include transmitting the environmental data
from the first database to a first computer, such as a computer
executing a web browser and searching for the environmental data.
The method can include decrypting the environmental data on the
second computer.
[0019] Disclosed is an environmental monitoring method that can
include sensing environmental quality data in a first environment.
The method can include attaching location data to the environmental
quality data to form composite data. The method can include
recording the composite data in a first database, and transmitting
the composite data from the first database to a computer.
[0020] An environmental monitoring method is disclosed that can
include sensing environmental quality data in a first environment,
and attaching a timestamp to the environmental quality data to form
composite data.
[0021] A method of displaying environmental quality measurements is
disclosed. The method can include measuring the output of a first
environmental sensor, recording the output of a first environmental
sensor, generating a report from the output of at least one
environmental sensor, and assigning a commercial value to a
location monitored by at least one environmental sensor. The
commercial value can be assigned to an environment in real time.
The method can communicate the commercial value to a user, as well
as a personalized value in real time that relates to an
individual's requirements at any given time due to their health
condition and other personalized factors. The user could be a pet,
for example a cat and dog or different breeds may need or thrive in
different air quality environments.
[0022] The method can include sharing or reporting any of the
recorded, generated or assigned information. Recording the output
of at least one environmental sensor can include encrypting the
recorded output of the at least one environmental sensor. The
recorded output can be encrypted with an encryption key associated
with a user. The sharing or reporting the information can include
decrypting the recorded output of at least one environmental sensor
using an encryption key associated with a user.
[0023] Assigning a commercial value to a location monitored by at
least one environmental sensor further can include computing a
commercial value using a function derived from a plot of pricing
data and environmental quality data.
[0024] A method of displaying environmental quality measurements is
disclosed. The method can include measuring the output of at least
one environmental sensor, recording the output of at least one
environmental sensor, generating a report from the output of at
least one environmental sensor, and assigning a commercial value to
a product stored at a location monitored by at least one
environmental sensor.
[0025] The assigning of the commercial value to the product stored
at the location monitored by the at least one environmental sensor
can include computing a commercial value using a function derived
from a plot of product pricing data and environmental quality
data.
[0026] The data processor of the system can display or send a
maintenance notification when a sensor data value crosses a
threshold. For example, if the sensor crosses an air particulate
threshold, the system can display or send a notification (e.g., to
the server or a computer or smartphone connected by Bluetooth or
Wifi) to change an air filter in the environment's HVAC system. If
the sensor crosses an time threshold, the system can display or
send a notification to perform a scheduled maintenance task (e.g.,
clean the system or the environment). If the sensor crosses an
animal dander count threshold, the system can display or send that
the animals in the environment need to be washed. If the sensor
crosses a calibration threshold, the system can display or send
that the sensor needs to be replaced. If the sensor crosses a power
threshold, the system can display or send that a battery in the
system needs to be replaced. If the sensor crosses a toxic chemical
threshold, the system can display or send that a danger exists.
BRIEF DESCRIPTION OF THE FIGURES
[0027] FIG. 1 is a diagram of a variation of an environmental
measurement display system.
[0028] FIG. 2 is a diagram of a variation of the environmental
measurement display system.
[0029] FIG. 3 is a diagram of a variation of the environmental
measurement display system.
[0030] FIGS. 4A and 4B are diagrams of variations of a display
device of the environmental measurement display system.
[0031] FIG. 5 is a flowchart of a method of displaying
environmental quality measurements.
[0032] FIG. 6 is a variation of a network diagram for monitoring
the environmental quality at multiple environmental locations.
DETAILED DESCRIPTION
[0033] FIG. 1 illustrates a variation of an environmental
measurement display system 100. The system can be used in a home,
commercial environment (e.g., office, industrial environment,
hospitality environment, warehouse, shipping container, airplane
cabin, ship cabin, train car, liquid storage tank (for transporting
food grade products, medical grade products, fuel products, water,
or any other liquid), disposable packaging such as a produce
container or a lobster box, or combinations thereof), to monitor
the quality of their environment. Environmental quality factors can
include air quality factors, such as levels of organic compounds or
allergens. The system 100 can display that the quality of the
environment is good and stable or that there is a potentially
harmful or allergenic environment that may need to be
addressed.
[0034] The environmental measurement display system 100 can include
an environmental sensor array 110, signal-processing circuitry 120,
a power supply 140, and a display device 130.
[0035] FIG. 2 illustrates that the display systems 200 can have
visual interfaces and external devices for collecting and
visualizing environmental data. FIG. 3 illustrates that the
environmental measurement display system 300 can have no local
display device 130.
[0036] FIGS. 2 and 3 illustrate that the environmental measurement
display systems 200 and 300 can include a communications system
150, a data storage system 155, a remote data visualization system
158 and a chassis 160.
[0037] The environmental sensor array 110 can measure properties of
an environment in which the environmental measurement display
system 100 is located. The environmental sensor array 110 can have
one or more sensors such as mass spectrometers, nano-plasmonic
sensors, chemical sensors, optical particle sensors, ionization
particle sensors, barometers, thermometers, humidity sensors,
oxygen sensors, carbon dioxide sensors, nitrogen sensors, smoke
detectors, accelerometers, GPS's, Geiger counters, CMOS/CCD image
sensors. RF radiation detectors, or combinations thereof. The array
110 can have one or more sensors of each type, for example for
redundancy in the event of a sensor failure or erroneous reading,
and/or for improved accuracy and/or precision. The sensor array 110
can include at least one particle sensor for detecting allergens
such as dander, pollen, dust, exhaust, carbon monoxide, radon and
smoke. The sensor array 110 can include sensors for detecting
exposure time and/or concentration levels of volatile organic
compounds, particle size, particle counts in air and/or in
water.
[0038] The signal processing circuitry 120 can remove noise from
signals received from sensors in the environmental sensor array
110. The signal processing circuitry 120 can normalize at least one
signal from the environmental sensor array 110 and can convert at
least one signal from the environmental sensor array 110 to a
suitable output for a display 130. For example, the environmental
sensor array 110 can generate a chemical level signal corresponding
to a chemical level present in the air. The signal processing
circuitry 120 can convert the chemical level signal to a signal
that can be processed by a display device 130.
[0039] The signal processing circuitry 120 can include signal
filters 122, a mixed signal processing integrated circuit, a mixed
signal microprocessor 128, such as those made by Texas Instruments,
or combinations thereof. The signal processing circuitry 120 can
include encryption hardware or software to encrypt the signal
data.
[0040] The conditioning or signal processing circuitry 120 can
include a danger alarm 123. The danger alarm 123 can be a lower
level circuit that can sound an alarm when a harmful level of at
least one chemical is detected, for example if an attached display
device 130 is malfunctioning, disconnected, broken or otherwise
disabled. The danger alarm 123 can sound an alarm with a speaker or
other audio transducer, such as a smoke detector alarm sound
mechanism. The danger alarm 123 can use a network connection of a
communications device to transmit an alarm to a central
communications station where a user or person in the environment
can be contacted, notified and can either investigate the problem,
or evacuate the area and wait for a chemical response team.
[0041] The sensor array 110 can detect air particles, such as dust,
dander and other allergens, and can send a notification via the
processor or danger alarm 123 to a server, other system, computer,
or handheld device connected by wired or wireless (e.g., Bluetooth,
Wifi) communication to the system 100 in the environment with
instructions to perform an environmental clearing action such as
ventilating the area, changing an air filter, turning on a
filtration system, running a humidifier, or combinations thereof.
When a human activity or a machine-controlled activity is causing
changes to the environment, the danger alarm 123 can encourage the
changes (if they are positive, such as ventilation), or discourage
the changes (if the environmental changes are negative) by sounding
an alarm or sending a notification to a user or a machine. The
danger alarm 123 can suggest safety tips and precautions such as
advising a human to wear a mask while vacuuming an environment with
dangerous levels of dust, or advising a human or a machine to
ventilate an area, and/or slow down the rate of application of a
chemical product or paint and/or use personal protection equipment
such as a ventilation mask. When the system 100 detects that food
is being burned in a kitchen, the danger alarm 123 can notify a
human immediately, instead of waiting for the human nose to detect
the burning smell.
[0042] Multiple danger alarms 123 can be used simultaneously, and
can have different notification sounds, lights, notification
methods or messages. For example, a smoke detection sound could be
different from a sound played when a dangerous level of dust is
detected.
[0043] The display device 130 can display signal information from
the sensor array 110 and/or processed signals from the signal
processing circuitry 120. The environmental monitoring system 100
can operate (e.g. take measurements and/or notify users of
dangerous levels) when the display device 130 is broken or
non-functioning. The display 130 can be calibrated to display a
range of values and information, including numerical measurements,
or just simply shades of grey or colors on a spectrum. The display
device 130 can be an organic light emitting diode (OLED) display, a
color liquid crystal display (LCD) a binary LCD, a gray scale LCD,
a grayscale e-ink display, a color e-ink display, a braille output
device, laser projection display, or combinations thereof. The
display device 130 can be a remote display device, for example a
monitor on a computer which can be displaying an Internet browser,
a smartphone or a tablet screen displaying a remote smartphone
application, a monitor or screen displaying the output of a
computer program executing on a hardware chip, or combinations
thereof.
[0044] For example, as a harmful chemical is detected by a sensor
array 110, and processed by signal conditioning or processing
circuitry 120, the display device 130 can display the processed
signal in a user-comprehendible format. The user-comprehendible
format can be a color, numbers, chemical formulas, images, chemical
images, structural chemical formulas, tessellations with gradients
of larger or smaller element sizes, tessellations of increasing or
decreasing element sizes (e.g. as a larger or smaller magnitude of
signal is detected, the element size in the tessellation is
adjusted to be larger or smaller) or combinations thereof.
[0045] The display device 130 can display textures, patterns or
colors can be displayed on binary LCD, grayscale LCD, grayscale
e-ink display, color LCD, or color-e-ink display, or any other
display capable of displaying patterns. The parameters such as
textures, patterns, images or colors can correspond to detected
chemical levels. For example, the display device 130 can display a
hex texture or pattern when benzene is detected. As the system 100
detects increasing levels of benzene, the display device 130 can
change the size, scale, darkness, pitch, color, dimension,
perspective (converting from 2-D to 3-D), visualization
orientation, or combinations thereof of the hex pattern. The
display device 130 can change color (either the background color or
the foreground color) of one or more displayed images in response
to changes in the chemical signals detected by the system 100. For
example, as the system 100 detects increasing level of benzene on
an absolute scale, the display device 130 can change the displayed
colors from a light green to a yellow to orange to red (with red
indicating a harmful level of benzene present in the air). The
colors could increase or decrease tint, saturation, hue, contrast,
brightness, transparency, fade, or combinations thereof.
[0046] The display device 130 can show graphics that can include a
pie chart, a bar chart, a scatter plot, a time-series plot, or any
other suitable graphical analysis, to provide a user with
information about the chemicals in the environment. The display
device 130 can show images of chemicals, color scales or numbers.
The display device 130 can grow or shrink the displayed image of
the chemical proportionally relative to the chemical levels
detected by the system 100 (e.g., scaling up or down). The display
device 130 can show graphics that can include sensor life, system
uptime, system maintenance data or commands and recommendations
(e.g. change a sensor, clean a sensor, calibrate a sensor), battery
life remaining, wireless or wired signal connectivity, danger
alarms enabled or disabled, status messages, or combinations
thereof.
[0047] FIGS. 4A and 4B illustrate that a display device 130 can
include at least one color wheel display 132 and at least one motor
134. The color wheel indicator 132 can include an arrow or other
marker that can be aligned with the color wheel to indicate which
area on the color wheel corresponds with the current environmental
quality measurement level.
[0048] FIG. 4b illustrates that the upper half of the color wheel
indicator 132 can have a rotatable ring 135. The rotatable ring 135
can have a band of color along the outside or shades of grayscale
on the outside of the ring 135, such that a user can identify the
approximate level of environmental quality from the colors
displayed on the ring 135.
[0049] The lower half of the color wheel indicator 132 can include
a color or texture based gauge. Multiple color wheel indicators 132
can be used together to display additional information, for example
to provide additional resolution and/or precision to the display.
For example, a transparent color wheel with additional colors could
be rotated by an additional motor or the same motor 134 (possibly
rotated at a different rate using gearing) to modify the colors
presented. An additional color wheel can be shades of grey. An
additional color wheel can be a transparency filter. At least one
color wheel can include transparent gradients around the ring or
the color wheel of increasing opacity of Red, Green, and Blue,
and/or Cyan, Magenta, Yellow.
[0050] The motor 134 in the display device can move or rotate the
color wheel or a color ring in a color wheel indicator 132. The
motor 134 can receive signals from the signal conditioning or
processing circuitry 120 and can actuate the color wheel indicator
132 to display a color on the color wheel that corresponds to the
signal that has been measured by the sensor array 110, and then
processed by the signal conditioning circuitry 120. Using the motor
134 to control the color wheel indicator 132 can use less power
than an active, or even passive display device, such as an LCD, or
an L-ink screen. The motor 134 can be a small DC brushed motor, a
brushless DC motor, a piezo type ratcheting motor, or combinations
thereof. The motor 134 can be controlled using a control loop to
track position and can use homing sensors (either optical sensors,
magnetic sensors, or any other suitable sensor) as a control scheme
for the motor 134. The motor 134 can home to a zero-position, and
then run open-loop. The motor 134 could run in a closed-control
loop using an encoder, such as an optical encoder, a mechanical
encoder, a potentiometer, or combinations thereof.
[0051] The power supply 140 can power the electronics for the other
elements of the system, including a sensor array 110, signal
conditioning circuitry 120, display device 130, communications
system 150, and other components in the system that require power.
The power supply 140 can be a transformer for an alternating
current, such as standard wall socket plug or a direct wiring to a
home or building electric grid, a mechanical generator, a diesel
generator, or any combinations thereof. The power supply 140 can
also be a battery, a DC current power supply, a DC current from a
computer (for example through a USB port), a photodiode, a
photovoltaic cell, or combinations thereof.
[0052] The chassis 160 can physically fix to, support, and/or
orient the components of the system 100. The chassis 160 can
support the orientation of the sensor array 110, and a grating in
the chassis could prevent large particles, soil and mud from
damaging or otherwise obscuring inputs into the sensor array 110.
The chassis 160 can support at least one display 130 and can either
house a power supply 140, such as a battery, a power supply plug, a
photodiode, a photovoltaic cell, a power plug, a collapsible power
plug, a power plug and transformer combination.
[0053] The local communication device 150 can communicate with a
remote device, and can transmit signal data generated by a sensor
array 110 and conditioning circuitry 120 to a remote device for
monitoring, storage, notifications, or combinations thereof. The
communication device 150 can be a wireless or a wired device. The
wireless device can be a WiFi device, a mobile data modem (such as
a 2G, 3G, 4G LTE device), a Zigbee communication device, a
Bluetooth device, a wireless USB device, infra-red transmitter, an
ethernet over electrical grid connection, or combinations
thereof.
[0054] FIGS. 2 and 3 illustrate that the remote communication
device 151 can receive data from the local communication device
150, and store the received data on a data storage device 155. The
data can be control signal data, environmental data generated from
a sensor array 110 and signal conditioning circuitry 120, alarm
data generated by a danger alarm 123, battery power charge
remaining, or any combinations thereof.
[0055] The remote communication device 151 can be directly
connected to the local communication device 150. The devices 150
and 151 can be connected on the same board or the same chip,
connected by an Ethernet cable, connected by a wireless channel, or
combinations thereof. The remote communication device 151 can be
directly connected to a data storage device 155. The remote
communication device 151 can be connected to a data storage device
155 through an internet connection (e.g., wired, wireless WiFi, 3G,
4G, LTE, or any other suitable wireless connection), acting as a
hub. A single remote communication device can function as a hub for
at least one sensor device and/or connect and transmit data to and
from multiple sensor systems 100 and at least one data storage
device 155.
[0056] The data storage device 155 can store the signals produced
by the sensor array. The stored signals can be post processed,
time-stamped for time series processing, filtered, compressed, or
analyzed before storing. The data storage device 155 can be a
storage system such as a networked computer server, including a
database on a hard disk, a database stored in volatile or
non-volatile memory, data stored in a text file, data stored on
multiple servers comprising a distributed database server platform,
or combinations thereof.
[0057] The data visualization interface 158 can visualize the
stored data. The data visualization interface 158 can display
information such as reports, charts, time series plots, pie charts,
spectrums, spectrograms, or combinations thereof. The data
visualization interface 158 can generate a report as an image file
and/or a document (such as a Microsoft word document or a PDF
document) and send the visualization via email or MMS message to a
user. The data visualization interface 158 can be a website
accessible via a web browser where a user can select at least one
type of report generated from the signal data generated by their
sensor device.
[0058] The data visualization interface can provide anonymized
comparisons with neighbors or similar classes of users, to enable a
user to compare the environment where the sensor has been placed
with comparable locations, and providing a relative comparison for
health, safety, and/or general interest. The data visualization
interface 158 can operate as a smartphone (i.e., mobile)
application, such that the phone can provide the display and a user
interface for the data visualization, for example, allowing the
selection of a type of time series chart, and enabling a user to
zoom in on the chart graphic by sliding their fingers apart on the
screen.
[0059] A mobile application can enable remote monitoring of the
system 100 by the remote communication device 151 from a remote or
local location. For example, users can monitor environmental data
of remote storage sites, homes, or offices. A data visualization
interface 158 can include a selection mechanism to determine a
display type (e.g. a selection box or a slider bar with options
such as basic, intermediate or advanced--depending on the technical
level of the user, or the application purpose of the environmental
sensor device). Configuration of a danger alarm 123 notifications
and alerts, danger alarm threshold levels and other settings can be
configured from the data visualization interface 158. The data
visualization interface 158 can allow a user to decrypt the
information from an environmental sensor device. For example an
encryption key could be stored on the outside of the device, and a
user can enter the encryption key to decrypt the information prior
to sharing, and/or generating a report.
[0060] The remote communication device 151 can be a smartphone, a
tablet, or a computer, an embedded system appliance (e.g. a hub) or
other suitable device. The remote communication device 151, the
data storage device 155 and the data visualization interface 158
could be located on a remote webserver, a user's smartphone, a home
computer, a regional computer of a landlord or property manager or
organization. A Zigbee dongle can be configured to be the remote
communication device 151 for a specific environment (e.g., a home
or office), and can then function as a data storage device 155 and
a data visualization interface 158, and perform any processing and
or communication with a remote data server (e.g. reporting for
corporate compliance or offsite data storage). Similarly, a
smartphone can have a Zigbee attachment or built in Zigbee
connectivity, or use Bluetooth to as the remote communication
device 151, and use the memory on the phone as storage device 155,
and the user interface on the phone as the data visualization
interface 158.
[0061] A second chassis can include a remote communication device
151, and can store the received sensor data on a local data storage
device 155, and/or transmit the data further to a remote computer
server system over the internet or a network, for storage on a
remote data storage device 155, and subsequent visualization on a
data visualization device 158. The second chassis can include a
second sensor array in the second chassis. The second sensor array
can confirm and/or calibrate sensor readings from the first
environmental sensor array 110 in the environmental measurement
display system 100, and can improve power consumption and sensor
sensitivity. If the environmental sensor array 110 receives
potentially erroneous readings or data (e.g., the data is outside
of 0% to 100% of a historical range or outside of a 5% to 95%
historical range for the array 110), the data from the first and
second sensors arrays can be compared before sounding an alarm
locally with a danger alarm 123, or communicating to a cloud based
data visualization interface 158.
[0062] The data visualization interface 158 can generate reports
such as maintenance reminders for an environment (such as changing
an air filter, opening a window for ventilation, taking out the
garbage), notifications of dangerous levels of chemicals, reports
for various time periods (e.g. weekly, or monthly trends in their
local environment), an environmental quality rating over time, a
value premium estimate for a residential or commercial property
based upon the environmental quality observed over time, an
insurance premium computation, a cost-of-damage assessment, or
combinations thereof. The data visualization interface 158 can
process data using data from numerous users to determine optimized
thresholds and danger alarm levels.
[0063] The system 100 (e.g., the microprocessor 128) can execute
artificial intelligence algorithms to determine optimal settings
for a particular device, environment, building type, user
application, and/or user class, and the results can be transmitted
to the particular device to improve performance (e.g. calibration,
power consumption, safety, accuracy, precision of devices of the
environmental sensor display system). The settings for a particular
device can be calibrated for an individual building, or the
settings can be tested on a similar device in similar conditions
and provide a generic "building type" calibration.
METHODS OF USE
[0064] The environmental sensor system 100 can be in communication
with non-environmental sensor systems, such as home automation
consoles, automobile control consoles, smartphones, tablets,
computers and combinations thereof. The system 100 can display
environmental quality measurements with the non-environmental
sensor systems.
[0065] FIG. 5 illustrates that a method 500 of displaying
environmental quality measurements can include measuring the output
of at least one environmental sensor S510, recording the output of
at least one environmental sensor S520, generating a report from
the output of at least one environmental sensor S530, adjusting the
value estimate of property at a location where at least one
environmental sensor is located S540, and property owner sharing or
reporting of information S550.
[0066] The measuring S510 can include signal conditioning to remove
noise, comparing multiple signals from multiple sensors of the same
type, and/or encrypting the signal.
[0067] The recording S520 can include recording signal data from at
least one environmental sensor measurement. The recording S520 can
include processing such as filtering, timestamping (e.g., recording
time data when the data was collected, sensed, recorded, and/or
received), encrypting or combinations thereof. The recording S520
can include storing the signal data in a computer database in a
device that can receive, store and process data such as on a
server, distributed across many servers, a home or office computer,
a tablet, a smartphone, or combinations thereof.
[0068] The report generating S530 can include the system 100
generating the reports from environmental sensor data. The system
100 can process at least two points of the recorded environmental
sensor data in a time series to generate a time series plot of
environmental quality.
[0069] Before or after generating the report, the system 100 can
receive a decryption key (e.g., entered by a user) to decrypt the
stored data from the user-owned sensor device. The system 100 can
use the decryption key to decrypt the data. A data storage device
can be maintained or operated by a third party (e.g., not part of
the system) and servers managing the data storage device may not
have access to the decryption key.
[0070] For example, the data can be encrypted before the data is
stored, and the decryption key can be physically displayed on the
system 100 (for example attached to an environmental sensor system
100 on a sticker). The system operator can be the only person to
have access to data generated by their own device, and would have
to authorize the sharing of that information. Smartphone
applications or data visualization interfaces, or internet browser
based web applications could require a decryption key before
accessing the data, further protecting a user's information from
third parties that may have an interest in obtaining the data. If
accelerometer and/or GPS sensor data is collected, a report can be
validated or invalidated based upon detected movement of a
sensor.
[0071] Estimated property values can be stored in a computer memory
in the system 100 or in a remote database, for example, not part of
the system 100. The system 100 can adjust S540 or assign the
estimated property value at a location where at least one
environmental sensor is located. The property value can be a
commercial value of real estate, antiques, and/or perishable goods
which derive value from the quality of their respective
environments. The adjustments or assignments of the property value
by the system 100 or a separate computer can be calculated from one
or more scaling or weighting factors (e.g., time decay scaling
based on the time since the data was recorded, location scaling
based on the location of the sensor array, factor scaling such as a
first weighting for a first allergen or toxic chemical and a second
weighting for a second allergen or toxic chemical, environment
scaling based on which environment the sensor array is located)
read by the system 100 from a database, the type of property (e.g.,
house, office, strawberries in a storage container, antique
painting), and the current and/or historical environmental data
recorded by the system 100.
[0072] The system 100 can share S550 the generated reports and/or
value adjustments or assignments with other computers over a
network (e.g., over the Internet). The system 100 can attach
verification or certification data to the reports and/or value
adjustments.
[0073] For example, property owners can share or report information
or reports on the environmental quality of their property (if they
so desire, but also possibly compulsory, if regulations require
compulsory reporting). For example a butcher could report on the
quality of the environment in their meat locker, and be able to
demonstrate the superior quality of their meats. A homeowner could
report the excellent air quality in their basement to prospective
buyers, as a commercial landlord could share favorable reports with
both prospective and current tenants, or a hotel could share
environmental quality reports with guests. As another example,
government sites could provide feedback to regulators and
environmental quality compliance monitors. Regulated industries,
such as food production, pharmaceutical production, healthcare
facilities (hospitals and clinics), oil drilling sites, mines,
power plants and utility companies, chemical production plants,
paper mills, steel mills, and other regulated industries could be
monitored for environmental quality compliance and/or safety
compliance by a governmental compliance officer, or an insurance
company officer. Compliance data can be transmitted to a government
or insurance company compliance server, perhaps for later use. An
individual or an organization can receive discounts and/or tax
credits for maintaining compliance, as well as special
certifications from the government, an insurance company or other
overseeing compliance group. Such information also enables
insurance companies and regulators to set environmental quality
levels using data driven techniques, instead of relying on
arbitrary opinions of scientists and environmentalists.
[0074] FIG. 6 illustrates that a first sensor system 100a can be
located in a first environment 400a. A second sensor 100b can be
located in a second environment 400b. The first and second sensor
systems 100 can transmit their respective environmental data across
a network to one or more servers 402 (referred to non-limitingly as
singular or plural herein, there can be a single server or a bank
of local or distributed servers). The servers 402 can store the
data in a first database in memory 155 that can be in or networked
to the servers 402. The servers 402 can be in network communication
with second computers 404.
[0075] The first and second sensor systems 100a and 100b can detect
environmental data relating to environmental quality factors from
the first and second environments 400a and 400b, respectively, and
at first and second times. The first and second sensor systems 100a
and 100b can be in network communication with the server 402 and
send the server 402 the environmental data from the first and
second environments 400a and 400b (i.e., first and second sensor
system data, respectively). The server 402 can process the received
environmental data, and save or otherwise store the environmental
data and the processed environmental data from the first and second
environments 400a and 400b into the data storage device or system
155.
[0076] The sensor systems 100, server 402, and/or data storage
system 155 can encrypt the data, certify the data (e.g., attach a
key to verify that the data originated from the environments 400a
and 400b), time-stamp the data when the data was received, attach
location data (e.g., from a GPS device in or in communication with
the sensor systems 100, server 402, and/or data storage system 155,
or combinations thereof), or combinations thereof.
[0077] The second computer 404 can request the direct environmental
data from the first and second environments 400a and 400b or data
derived or processed therefrom, from the server 402 which can
retrieve the requested data from the data storage system or device
155 and send the data to the second computer 404. The second
computer 404 can request the data directly from the data storage
system 155 without requesting the data from the server 402.
[0078] For example, the server 402 can process the environmental
data from the sensor systems 100a and 100b and store the processed
data in the data storage system 155. The server 402 or second
computer 404 can compare the first environment data at a first time
to the second environment data at a first time and/or to first
environment data at a second time. The data comparison can be used
to calculate the change from the first time to the second time
and/or between the first and second environments.
[0079] The server 402 can alter or assign in the first database the
value, such as a monetary value, of real and/or personal property
listed for the environments 400a and 400b. The personal property
and the respective values listed in the first database can be
partially or completely linked over a network to a second database
(on the first data storage system 155 or a second data storage
system), such as an inventory tracking database on a second server.
The linked data between the first and second databases can be
updated instantly when a change is made to either database, can be
updated with a delay, can be updated with manual approval of the
respective change, or combinations thereof. The second database
(and therefore the first database) can have property listing and
expected market value data updated from a third or fourth database,
such as from inventory management and market price tracking
databases.
[0080] The alteration or assignment of the value by the server 402
can depend at least partially on the comparison of the data of the
first environment compared to the data of the second environment
and/or the current data of the first environment compared to the
data of the first environment at the second time. The server 402
alteration or assignment of the value can depend at least partially
on a market value for the property and/or the inventory quantity
and age of the property (e.g., for perishable goods, such as
produce). The server 402 can retrieve the updated or historical
market value for the product from a networked computer or memory
(e.g., a networked computer or memory recording commodities trading
prices for the product). The server 402 can calculate--and record
in the database 155--the changes in economic value and/or
environmental quality data for the first and/or second environments
compared to each other, over time (e.g., at a first time and a
second time), compared between different environmental factors
(e.g., comparing the particles of cedar pollen to the particles of
grass pollen, or the time change of each), or combinations thereof.
The sensor array can be attached to the environment of the products
(e.g., to an inside wall of a shipping container) and/or to the
product or the product's packaging.
[0081] The second computer 404 can access the alteration (i.e., the
change in value) or assignment (i.e., the entire value) of the
first and/or second property values stored in data storage system
155.
[0082] Part or all of the system 100 can be stationary. A component
of the system 100 can ping any Bluetooth low energy device near the
component of the system 100 to retrieve GPS values so that the
component or system 100 can verify its location. The system 100 can
transmit its location, for example in when the emergency alarm is
activated.
[0083] The examples and illustrations included herein show, by way
of illustration and not of limitation, specific variations in which
the subject matter may be practiced. Other variations may be
utilized and derived therefrom, such that structural elements and
method process substitutions, combinations, and changes may be made
without departing from the scope of this disclosure. As a person
skilled in the art will recognize from the previous detailed
description and from the figures and claims, modifications,
combinations, and changes can be made to the disclosure without
departing from the scope of this disclosure.
* * * * *