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| United States Patent Application |
20040155815
|
| Kind Code
|
A1
|
|
Muncaster, George W.
; et al.
|
August 12, 2004
|
Wireless navigational system, device and method
Abstract
A system, device and method for assisting navigation are disclosed. The
system comprises at least one positioning support device and a personal
portable wireless user device. The positioning support device is operable
to be placed near a navigation feature and to communicate appropriate
navigational information, including absolute position and relative
position with respect to a navigational feature. The user device is
operable to receive the navigational information and communicate it to a
user. The method operates to permit users to independently navigate
local, overland or underwater areas and is especially useful for persons
who whose vision may be impaired.
| Inventors: |
Muncaster, George W.; (Phoenix, AZ)
; Austin, William B.; (Chandler, AZ)
|
| Correspondence Name and Address:
|
MOTOROLA INC
5401 NORTH BEACH STREET
MAILSTOP E230
FORT WORTH
TX
76137
|
| Assignee Name and Adress: |
MOTOROLA, INC.
|
| Serial No.:
|
854708 |
| Series Code:
|
09
|
| Filed:
|
May 14, 2001 |
| U.S. Current Class: |
342/357.09 |
| U.S. Class at Publication: |
342/357.09 |
| Intern'l Class: |
G01S 005/02 |
Claims
What is claimed:
1. A system for facilitating enhanced personal navigation comprising: a
positioning support device for placement near a navigational feature, the
positioning support device transmitting navigational information; and a
user device for receiving navigational information from the positioning
support device.
2. The system of claim 1, wherein the user device is operable to
communicate the navigational information to a visually impaired user.
3. The system of claim 2, wherein the user device provides the
navigational information in a content accessible format.
4. The system of claim 1, wherein multiple positioning Support devices
coupled by communication links are placed in multiple locations.
5. The system of claim 1, wherein the positioning support device is
operable to adapt the navigational information communicated based on
changes in environmental conditions.
6. The system of claim 1, wherein the user device is capability
addressable.
7. The system of claim 1, wherein the positioning support device is
operable to communicate absolute or relative positions of multiple
navigational features.
8. The system of claim 4, wherein the system is operable to adapt to the
addition, failure, or removal of positioning support devices of the
system.
9. The system of claim 4, wherein one or more of the multiple positioning
support devices are operable to receive positioning information from a
remote positioning system.
10. The system of claim 4, further comprising a remote server
communicating with the positioning support devices and operable to update
the information communicated to positioning support devices and to
receive information from the positioning support devices.
11. The system of claim 1, wherein the positioning support devices are
placed to aid in water navigation.
12. The system of claim 1, wherein positioning support device are placed
to aid in overland navigation.
13. A personal navigation unit comprising: a receiver operable to receive
navigational information; and an output device coupled to the receiver
operable to communicate navigational information.
14. The unit of claim 13, wherein the unit is operable to communicate
information to a visually impaired user.
15. The unit of claim 13, wherein the output device provides content
accessible notification.
16. The unit of claim 13, wherein the navigational information is received
from a positioning support device.
17. The unit of claim 13, wherein the navigational information is received
from a positioning support device located near a navigational feature.
18. The unit of claim 16, wherein multiple positioning support devices are
coupled by a communications link.
19. The unit of claim 18, wherein the multiple positioning support devices
are operable to receive positioning support information from a remote
positioning system.
20. The unit of claim 13, further comprising a remote server communicating
with the positioning support devices and operable to update the
information communicated to the positioning support devices and to
receive information from the positioning support devices.
21. The unit of claim 13, wherein the receiver is operable to receive
navigational information concerning underwater navigation.
22. The unit of claim 13, wherein the receiver is operable to receive
navigational information concerning overland navigation.
23. A method for communicating navigational information to a user
comprising: receiving navigation information at a user device; and
communicating the navigational information to the user.
24. The method of claim 23, wherein the step of communicating comprises
communicating with a visually impaired user.
25. The method of claim 23, wherein the step of communicating comprises
communicating a content accessible notification.
26. The method of claim 23, wherein the step of receiving comprises
receiving information from a positioning support device located near a
navigational feature.
27. The method of claim 23, further comprising receiving information from
multiple positioning support devices coupled together by a communications
link.
28. The method of claim 23, further comprising receiving information from
a remote positioning system at the positioning support device and
communicating the information to the user device.
29. The method of claim 27, further comprising a remote server
communicating with the positioning support devices and operable to update
the information communicated to the positioning support devices and to
receive information from the positioning support devices.
30. The method of claim 23, wherein the step of receiving comprises
receiving navigational information concerning underwater navigation.
31. The method of claim 23, wherein the step of receiving comprises
receiving navigational information concerning overland navigation.
Description
TECHNICAL FIELD OF THE INVENTION
[0001] This invention relates to the field of navigation and more
specifically to a method and system for a distributed non-visual wireless
navigation system, method, and apparatus.
BACKGROUND OF THE INVENTION
[0002] Many visually impaired individuals rely on service animals,
primarily seeing eye dogs, to assist them in safe travel. Unfortunately,
seeing eye dogs are not a complete answer for the visually impaired. Many
visually impaired persons are unable to learn to use a seeing eye dog.
Others, due to limitations that are a result of their disabilities, are
unable to care for seeing eye dogs. Seeing eye dogs are also expensive
due to extensive training and maintenance costs. Dogs also have a limited
useful life span.
[0003] Because of those drawbacks, various technological solutions have
been proposed. One such solution is to use an electronic system to sense
an individual's surroundings and then stimulate selected portions of the
individual's nervous system to give an indication of the individual's
surroundings. Certain visually impaired persons can be trained to
recognize these patterns for use in short-term navigation. Such solutions
tend to be very complex, possibly medically intrusive, and expensive.
They may also require more extensive and lengthy user training than
required for a seeing eye dog. Other proposed systems also tend to be
complex and expensive. What is needed instead is a simple personal,
portable, wireless navigational system, method, and user devices, which
are simple to learn and use and which yield results comparable to, or
better than, current dog-assisted methods.
BRIEF DESCRIPTION OF THE DRAWINGS
[0004] For a more complete understanding of the present invention and
advantages thereof, reference is now made to the following descriptions,
taken in conjunction with the following drawings, in which like reference
numerals represent like parts, and in which:
[0005] FIG. 1 illustrates an exemplary embodiment in accordance with the
present invention;
[0006] FIG. 2 illustrates a user device and positioning support device in
accordance with the teachings of the present invention;
[0007] FIG. 3 illustrates an embodiment according to the present invention
illustrating a series of positioning support devices, which are networked
together in an area;
[0008] FIG. 4 is an illustration of an underwater embodiment according to
the present invention;
[0009] FIG. 5 is an illustration of an overland embodiment according the
present invention; and
[0010] FIG. 6 is a flow chart illustrating an embodiment according to the
present invention system and method.
DETAILED DESCRIPTION OF THE DRAWINGS
[0011] FIG. 1 illustrates an exemplary embodiment according to the present
invention. Illustrated is a user 102, who is, in one embodiment, visually
impaired. A visually impaired user can be permanently visually impaired
or be rendered visually impaired due to some environmental condition or
other situation. User 102 is equipped with a personal portable wireless
navigational device 104.
[0012] Implanted in sidewalk 106 are positioning support devices 108. In
this example, positioning support devices 108 are located before alley
110. In use, user 102, a visually impaired individual, is traveling with
personal portable wireless navigational device 104 activated. Personal
portable wireless navigational device 104 is operable to communicate
wirelessly with positioning support device 108 and provide audio or
tactile feedback to user 102. Positioning support devices 108 are placed
near navigational features. These may be navigational hazards, such as an
alley or intersection, navigational points of relevance, such as the
location of a pharmacy, or any other navigational waypoint.
[0013] The navigational feature may be permanent, time or location
dependent or even moveable.
[0014] In FIG. 1, positioning support device 108 is placed near or in
proximity to sidewalk 106. As user 102 approaches positioning support
device 108, personal portable wireless navigational device 104 and
positioning support device 108 exchange communication signals with each
other by wireless means. This exchange is needed because it insures that
both personal portable wireless navigational device 104 and positioning
support device 108 are able to adapt to and interpret each other's
signals correctly and accurately. Note that personal portable wireless
navigational device 104 is mobile, and that positioning support device
108 may also be mobile; that is, affixed to a moving or temporary
structure, such as construction, vehicles, material item or bundle, and
the like. Ultimately, positioning support devices 108 could be built, or
retrofitted, into or onto each highway vehicle to provide as an effective
public service, adequate warning to sensory-impaired persons.
[0015] Also in use, both devices may be capability addressable; that is,
capable of signaling to each other their data rate(s), buffer capacity,
synchronization information, computational accuracy/calibration
information, and the like. Capability addressability helps to better
insure successful positioning outcomes by providing information that is
understandable to a wide variety of devices that have different
capabilities. As a result of such communications exchange, for example,
personal portable wireless navigational device 104 may then provide audio
or tactile feedback to user 102 based on information received from
positioning support device 108. In one embodiment, positioning support
device 108 can continuously broadcast navigational information such as
"approaching an alley", "curb ahead", "East-West signal malfunction" or
other useful navigational information. Depending on the capabilities of
personal portable wireless navigational device 104 and the needs of user
102, personal portable wireless navigational device 104 can communicate
the navigational information to user 102 in a format useable by both the
user 102 and supported by the personal portable wireless navigational
device 104. This is the basis of the capability addressable format. Note
that the navigational information communicated is not just an indication
of where user 102 is located, as could be received by a conventional GPS
receiver, which at best only provides information that a GPS receiver can
use to fix a location. Instead, in the present invention, the
navigational information helps a user navigate about a city or other
location.
[0016] For example, according to user established device input/output
preferences, the personal portable wireless navigational device 104
provides feedback to the user 102 in a manner and format suitable for
each user's ability to perceive and comprehend. This is known as content
accessibility. For example, depending on the user 102 capability and
personal preferences, one or more of audible, visual, tactile, or other
type of feedback means may be emitted by the personal portable wireless
navigational device 104. Further, for example, depending on user 102
capability, the personal portable wireless navigational device 104 may
issue a series of beeps or other audible tones, light flashes of
specified intensity and/or color, ordinary speech such or working
generated speech, or may vibrate or shake or provide other tactile
feedback in a manner so as to communicate to user 102 the proximity,
distance, exact location, and/or nature of the navigational hazard or
other relevant features being approached.
[0017] Further, system and/or device sensitivity, accuracy, information
contents exchanges, and the like, may all be tailorable and configurable
to the specific purpose, so that, for example, messaging information
rate, response distance and time, and the like may be a function of the
specific navigation waypoint, route, dangers, etc.
[0018] In one embodiment, personal portable wireless navigational device
104 and/or positioning support device 108 may be equipped with a Global
Positioning System (GPS) or Glonass receiver, or with other public or
private open or proprietary capabilities to improve the accuracy of
positioning or timing information necessary to accomplish the purpose of
this invention. For example, one or more local differential GPS (DGPS)
capable nodes can be used to refine user 102's position to very high
levels of accuracy and precision to insure safer navigation in congested
or built-up areas when such improved positioning/location is required. In
concert with networked positioning support devices 108, and establishing
the precision placement of such devices, user positioning can also be
determined to very high accuracy and precision.
[0019] While FIG. 1 illustrates positioning support devices 108 mounted in
a sidewalk 106, positioning support device 108 can be mounted anywhere
near the area where a user 102 might need indication of upcoming fixed or
moveable navigational hazards or other relevant features, including
hazards or features below grade, at ground level (e.g., attached to a
wall/post/overhead object, vehicles, etc.) and the like). Furthermore,
this invention does not require a clear signaling line of sight since
information content such as the existence of a navigational hazard,
rather than simply instantaneous range between devices, is what is of
most relevance.
[0020] FIG. 2 is a block diagram illustrating personal portable wireless
navigational device 104 and a positioning support device 108. Personal
portable wireless navigational device 104, in one embodiment, includes a
processor 208, input/output ("I/O") devices 210, memory 202, transceiver
206 and antenna 207. Processor 208, under the control of an operating
system, controls the operation of personal portable wireless navigational
device 104 and is used to retrieve, process, store, and communicate data.
Operating system and any necessary application programs are stored in
memory 202. Memory 202 may be implemented as volatile or nonvolatile
memory, random access memory ("RAM"), read-only memory ("ROM"), embedded,
peripheral, or other types of memory.
[0021] Processor 208 can typically be implemented in several ways,
including as a microprocessor, such as those manufactured by INTEL,
MOTOROLA, or HITACHI. Processor 208 communicates control, address, and
data signals with the operating system and with the remaining components
of personal portable wireless navigational device 104. Processor 208
interprets and executes instructions that have been fetched or retrieved
from memory 202 and may be implemented as a single integrated circuit or
as a combination of integrated circuits.
[0022] I/O devices 210 include any embedded, attached or peripheral device
that allow data to be communicated to and from a user 102 via personal
portable wireless navigational device 104 and may include such devices as
a speaker, a microphone, or a tactile feedback or other transducer of
sensory input. In an alternative embodiment, if personal portable
wireless navigational device 104 is to be used by non-visually impaired
individuals, it may include other types of I/O devices 210 such as a
display, coding/patterns of lights, or other methods of generating
visible cues to user 102. Personal portable wireless navigational device
104 includes a wireless receiver/transceiver (transceiver) 206, coupled
to antenna 207, to receive information from positioning support device
108 and, in certain embodiments, transmit information to positioning
support device 108 via wireless communication link 204.
[0023] Positioning support device 108 typically includes a memory 223, a
processor 224, a wireless receiver/transmitter (transceiver) 226, an
antenna 227 and input/output devices 228. Processor 224 controls the
operation of positioning support device 108. Processor 224 can be
implemented in several ways, including as a microprocessor similar to
processor 208 used in personal portable wireless navigational device 104
and then the processor 224 operates similarly to processor 208 contained
in personal portable wireless navigational device 104. Positioning
support device 108 may also include I/O devices or modules 228 used to
communicate with external sensor(s) 230 to detect changes in
environmental conditions, such as ice, rain or fog, etc. Such external
sensor 230 information may be used to trigger a change of message or an
added message such as "slippery sidewalk" or "caution low visibility". In
the case of a visually impaired individual, the knowledge of particular
environmental conditions, such as ice or low visibility, could help or
warn the user 102 to proceed more safely (e.g., icy walkways or other
dangerous conditions) or to alert others (e.g., vehicle operators) in,
for example, low visibility conditions, where the presence of an impaired
user 102 could be difficult to detect.
[0024] Positioning/navigational messages can be stored in memory 222 and
transmitted by transmitter 226. For fixed obstacles, or terrain
alterations, or temporary placement of a navigation hazard (truck, load
of building materials, etc.), such position of each obstacle can be
stored by the personal portable wireless navigational device 104 for
navigational reuse to achieve computational economy, etc., as necessary.
This facilitates ease of navigation within a defined area, such as the
home, workplace, local neighborhood, or other locales frequented by user
102. In alternative embodiments, positioning support device 108 may
include a more capable transceiver 228 with the added capability to
receive information content. Positioning support device 108 may also
include the capability for customization of messages and reprogramming of
messaging content and of accessing and processing internal applications
from a remote server, as illustrated in FIG. 3 or other remote
information source.
[0025] FIG. 3 illustrates, according to the present invention, an array or
series of positioning support devices 108 in an area. Device coverage
volumes may overlap, as each positioning support device 108 may be
permanently or semi-permanently located or alternatively affixed to a
mobile or transportable element able to affect personal navigation. One
or more positioning support devices 108 may operate independently or may
be networked together. Likewise, multiple positioning support devices 108
may intercommunicate to share and transfer awareness of the presence of
proximate users 102. Illustrated is user 102 with personal portable
wireless navigational device 104. In this embodiment, positioning support
devices 108 are networked together by one or more communications links
304. Positioning support devices 108 may also be networked with a remote
server 306, which may also locally or in a more extended fashion share
and transfer awareness of the presence of proximate users 102 in the
vicinity of or moving between any networked positioning support devices
108. Remote server 306 may also transmit instructions for modifying
individual message content to be transmitted by positioning support
device 108 to user 102, according to capabilities of user 102. Remote
server 306 may also act to transmit, on a temporary or permanent basis,
instructions for reprogramming positioning support device 108. Such
instructions may thus modify, update, or stop device operations via
control messages or by altering applications software. Each networked
positioning support device 108 can adapt to the failure, addition or
removal of an individual positioning support device 108 by shifting
message communications duties between remaining functional individual
positioning support devices.
[0026] If user 102 is visually or otherwise impaired, personal portable
wireless navigational device 104 may be operable to provide navigational
information in content-accessible format; that is, according to the
capabilities and needs of each user 102. Such information may be supplied
by any or all of diverse methods, which may be tailored to the
capabilities both of user 102 and personal portable wireless navigation
device 104. For example, information may be communicated to a user 102 by
personal portable wireless navigational device 104 by audio, visual,
tactile, multimedia, etc., sensory inputs according to user-specified
preferences. Thus, personal portable wireless navigational device 104 may
interpret and provide tailored information output(s) to user 102 in
response to one or more "standard" messages sent by positioning support
devices 108.
[0027] In another embodiment of this invention, positioning support
devices 108 may be distributed over an extended area, such as a city
block or shopping district, etc., and thereby provide comprehensive
positioning/navigational coverage over the extended area. Positioning
support devices 108 may also be operable to receive information from
remote positioning/location/navigation support systems (e.g., global
positioning system [GPS] satellites 302), as well as information from
other positioning support devices 108 via communication links 304 and
also from remote server 306. Communication links 304 may be wired or
wireless. Information accuracy may be enhanced via several different
methods, including use of GPS satellites 302, local and/or regional
differential GPS signals, and information supplied by a single
positioning support device 108, an array or sequence of positioning
support devices 108 or networked information supplied by remote server
306 and communicated to user 102 by a local positioning support device
108. These methods will allow any positioning support device 108 to
determine its location with great accuracy. This location information is
then, in turn, provided to personal portable wireless navigational device
104. This approach also permits more remote positioning support devices
108 to transmit relevant positioning/navigational support information,
such as proximity or distance to a specific location, nature of a
navigational hazard or other relevant feature to proximate positioning
support device 108 for purposes of extended distance navigation. For
non-visually-impaired individuals, personal portable wireless
navigational device 104 may provide a map on a display. Suggested
navigation route(s) around the area shown by the map may be provided by
positioning support devices 108.
[0028] Also in this embodiment, positioning support devices 108 are
operable to transmit information regarding navigational hazards and other
relevant features to user device 104. This can be information regarding
alleys, potholes, closed sidewalks and the like. This information can be
preprogrammed into positioning support devices in the cases where the
navigational hazards are fixed and permanent. Alternatively, remote
server 306 can be used to send transient information, such as timing of
sidewalk or roadway closures, environmental conditions (e.g., ice,
barricades, etc.), and other nonpermanent conditions regarding temporary
navigational hazards or other relevant features to positioning support
devices 108.
[0029] Additionally, remote server 306 can send additional information to
a user 102 via communications links 304 between remote server 306 and
positioning support devices 108 which are then routed ultimately to user
102 via communications link 204 between a personal portable wireless
navigational device 104 and a proximate positioning support device 108.
This information may include such information as alternative situation-
or time-dependent routing, overall navigational system coverage
boundaries, boundaries outside of which the immediate navigational hazard
is not of concern, and the like.
[0030] FIG. 4 illustrates an alternative embodiment according to this
invention that addresses underwater navigation. In this embodiment,
positioning support devices 108 can be placed underwater or allowed to be
tethered or to float at the surface of a body of water, e.g., by being
attached to a buoy 402 or similar device.
[0031] In this embodiment, user 102 may be swimming or diving underwater.
The user may be a recreational diver, a member of a search and rescue
team, a military diver or other user that requires accurate navigation in
water. User 102 has a personal portable wireless navigational device 104,
which receives transmissions from positioning support device 108 via
underwater communications link 404. In this embodiment, personal portable
wireless navigational device 104 may be attached to or included in an
item worn or carried by user 102 for ease of use. Positioning support
devices 108 may transmit underwater communications link 404 using a radio
frequency signal, using long range sonar, or using some other type or
frequency of signal that will propagate under water. Personal portable
wireless navigational device 104, which has been designed to operate
under water, may be attached to user 102 for ease of use. Positioning
support devices 108, as discussed earlier, may either be located under
water or attached to a buoy 402 or other floating device. Positioning
support devices 108, as discussed previously, will broadcast navigational
information to the personal portable wireless navigational device 104.
The type of information communicated to the user 102 depends on the
capabilities of personal portable wireless navigational device 104 and
the need of the user 102 and can be text messages displayed on a screen,
tactile feedback, visual feedback, voice or other audible feedback, or
other communicative means. When positioning support device 108 is
attached to a buoy 402 or similar floating device, positioning support
device 108 can receive information directly from remote
positioning/location/navigation support systems (e.g., global positioning
system [GPS] satellites 302), as well as information relayed indirectly
via other positioning support devices 108 via communication links 304
(typically wireless) and/or from remote server 306. Positioning support
device 108 can relay such external positioning/location information to
personal portable wireless navigational device 104 in possession of user
102 via proximate communications link 404.
[0032] In operation, a user 102 with personal portable wireless
navigational device 104 is underwater and receives navigational
information via communication link 404 from a positioning support device
108. As discussed previously, positioning support devices 108 can be used
to mark fixed or moveable navigational hazards or other points of
relevance. For example, user 102 may be a rescue diver performing a
salvage or recovery operation in open water, a lake or river, etc. System
is especially useful in deep water where sunlight may not penetrate, or
in sandy, muddy, or turbid waters. Positioning support devices 108 may be
deployed in order to establish reference grid areas for facilitating
searching by the user (diver) 102. In this embodiment, grid coordinates
may be programmed into each positioning support device 108 to facilitate
user 102 intended operations. In another embodiment, positioning support
devices 108 can be deployed by a forward user(diver) 102 in an undersea
environment to allow subsequent divers to follow a safe course.
Additionally, positioning support devices 108 can be used to mark fixed
or movable underwater hazards or other points of relevance, such as
shipwrecks or sensitive environmental areas.
[0033] While the above aspects of FIG. 4 addressed underwater navigation,
the same concepts may be used to guide above-water traffic. For example,
positioning support devices 108 can be deployed on buoys 402 or immersed
in or below the surface of the water or operate from a shore-based
station to mark submerged hazards such as trees, sandbars, undertow
currents, or debris, and the like that could hamper surface vessels,
swimmers, water-skiers, or other recreational or commercial users 102.
Additionally, positioning support device 108 located above or below the
water's surface can warn vessels and their operators about variable
hazard conditions, such as tidal dependent shoals and ecologically
sensitive areas, such as no-wake zones, etc. This could help protect
animals such as manatees.
[0034] FIG. 5 illustrates an alternative embodiment for land navigation.
In this embodiment, positioning support devices 108 can be placed in
rural areas (e.g., on firetowers, at public campgrounds, etc.) to assist
hikers, campers and the like.
[0035] In this embodiment, user 102 is traveling overland. In FIG. 5, the
user is traveling on foot although the user 102 could be traveling in a
vehicle or on an animal such as a horse, camel, ox, donkey or other beast
of burden. The user 102 may be a recreational hiker, a member of a search
and rescue team, military personnel on maneuvers or other user 102
requiring accurate navigation overland. User 102 has a personal portable
wireless navigational device 104 that receives transmissions from
positioning support device 108 and potentially also may receive
transmissions from GPS or other publicly accessible remote
positioning/navigational support systems 302. Note that while GPS and
other publicly accessible remote positioning/navigational support systems
can provide accurate absolute and relative position and timing signals,
such systems inherently have no contextual knowledge of user 102's local
geographic area or of related topographic or cultural features. Thus,
positioning support devices 108 can transmit information regarding local
fixed or transient navigational hazards, such as a mineshaft, streambed
subject to flashfloods, etc., or can provide navigational information,
such as preferred or prohibited paths, such that a visually impaired user
102 can stay on a path and thereby enjoy independent participation in
such outdoor activities. This is the difference between location
information provided by a GPS-like system 302 and navigational
information provided by the present invention.
[0036] Thus, positioning support devices 108 may communicate using radio
frequency signals 304 or using some other type or frequency signal 304
that will propagate in the air. In this embodiment, personal portable
wireless navigational device 104 may be attached to or included in an
item worn or carried by user 102 for ease of use. Positioning support
devices 108, as discussed previously, will communicate navigational
information to the personal portable wireless navigational device 104.
The type of information communicated to the user 102 again depends on the
capabilities of the personal portable wireless navigational device 104
and user 102 capabilities and preferences. Information again can be
presented to user 102 as text messages displayed on a screen, other
visual inputs, tactile feedback, voice or other audible feedback or other
communicative means.
[0037] As discussed previously, positioning support devices 108 can be
used to mark fixed or moveable navigational hazards or points of
interest. In operation, a user 102 with personal portable wireless
navigational device 104 is traveling overland and receives navigational
information from a positioning support device 108. For example, user 102
may be a member of a rescue team searching for lost persons in a forest
or desert. Positioning support devices 108 may be deployed in order to
establish grid areas for searching by the member of the rescue team. In
another embodiment, positioning support devices 108 can be deployed by a
forward scout in a military operation to allow subsequent personnel to
follow a safe course. Positioning support devices 108 can be used to mark
a path through a National Park or other recreation area for visually
impaired hikers.
[0038] Additionally, positioning support devices 108 can be used to
communicate absolute or relative positions of multiple fixed or transient
hazards or other types of relevant locations of interest, such as
mineshafts, bear caves, positions of military minefields or of individual
mines within a minefield, unexploded ordnance, etc. Thus, if user 102 is
equipped with a local geographic information system database which
contains one or more of: topographical features or contours, terrain
features, cultural features, land use indicators, soil moisture content
or bearing strength, ore deposits, or other situationally-relevant
information, the additional information provided by positioning support
device 108 may be readily merged with user 102's local database
information and used to further improve safety, efficiency, and
effectiveness of accomplishing user 102's purpose.
[0039] FIG. 6 is a flowchart illustrating one method embodiment according
to the present invention. In step 600, a positioning support device 108
is placed near a permanent navigational hazard, or a waypoint of interest
or relevance, such as an alley or the end of a sidewalk. Alternatively,
the positioning support device 108 may be placed in a temporary location
where a navigational hazard may exist for only a short period of time,
such as on a construction vehicle blocking a right of way. Alternatively,
positioning support device 108 can communicate the presence and proximity
of vehicles.
[0040] In step 602, the positioning support device 108 transmits the
navigational information, such as the location of a navigational hazard.
This transmission can be a continuous transmission of navigational
information, such as the location or proximity of a hazard, or an alert
message that will either activate a proximate personal portable wireless
navigational device 104 or allow the user 102 to receive notice that a
further message will be received. If personal portable wireless
navigational device 104 is suitably capability-addressable, it uses
signaling information messages with positioning support device 108 to
establish compatible communications and formatting of communication link
204, then to configure and enable information content and mechanism of
input/output tailored to the needs and capabilities of user 102.
[0041] In step 604, the positioning/navigational information message is
received at personal portable wireless navigational device 104, which is
being carried by a user 102. In step 606, the positioning information is
communicated to the user 102. The format and type of information
communicated to the user 102 depends on the capabilities of the personal
portable wireless navigational device 104 and of user 102, whereas
specific information contents presented may also depend on established
capabilities and preferences of user 102. Such communications can include
spoken audio messages, nonverbal audio messages, vibrations and other
forms of tactile sensory outputs, other sensory stimuli, etc. Following
completion of the messaging communications, the process starts over again
at step 602.
* * * * *
