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Claims  |
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What is claimed is:
1. A simulator system for providing a virtual environment for a user,
comprising:
viewing means to provide images of a virtual environmental for the user's
eyes;
input means for inputting data to create images for the user's eyes through
the viewing means including physical conditions of the virtual environment
at predetermined locations in the virtual environment; and
control means to enable the user to interact with the virtual environment
images including:
means for creating a variable symbol in the virtual environment,
controlling movement of the symbol through the virtual environment and
cause the symbol to visually change in appearance in response to the
physical condition data at the predetermined locations, to thereby convey
information visually to the user.
2. A simulator for producing an environment visually in accordance with a
user's manipulation, said simulator comprising:
stereoscopic viewing means to be put on said user's eyes;
input means for inputting necessary data to produce an environment of an
interior where an evaluation for a user experience depends on properties
of primary colors, wherein virtual experience is achieved by visually
expressing differences in atmosphere using differences between each
primary color prior to a simulation;
storage means for storing data inputted by said input means;
selective lighting condition numerical data input means for inputting
numerical data related to at least one of an illuminance of lighting for
each primary color, a transmission factor of a glass surface for each
primary color, and a reflection factor of a mirror to evaluate lighting
environment condition data for an environment of an interior where an
evaluation for a user experience depends on properties of primary colors,
said numerical data being selected by said user, said lighting environment
condition data corresponding to data stored in said storage means;
selective lighting condition numerical data storage means for storing said
numerical data inputted by said selective lighting condition data input
means;
selection manipulating means for enabling said user to select necessary
data for a lighting environment evaluation from said numerical data stored
in said selective lighting condition numerical data storage means; and
stereoscopic environment producing-storing means for producing said
lighting environment condition data for an environment of an interior
where an evaluation for a user experience depends on properties of primary
colors by calculating for each primary color, based on said data stored in
said storage means and said numerical data selected by said selection
manipulating means, for storing said lighting environment condition data
and for having said lighting environment condition data displayed in said
stereoscopic viewing means.
3. The simulator of claim 2, further comprising:
soft-robot producing means for producing a soft-robot within said
environment;
soft-robot's location designating means for enabling said user to designate
and amend a location of said soft-robot within said environment;
soft-robot display control means used for lighting environment condition
data evaluation for reflecting said lighting environment condition data on
a display of said soft-robot at a location designated by said soft-robot's
location designating means.
4. The simulator of claim 3, wherein
said soft-robot's location designation manipulating mean includes:
a detecting unit for detecting at least one of an manipulation causing a
magnetic change, a manipulation causing an acceleration, a button pushing
manipulation, and a switching manipulation by a movement of one hand of
said user; and
a detection manipulation converting unit for converting a detection content
by said detecting unit into designation and amendment commands related to
said soft-robot's location from said user.
5. The simulator of claim 4, further comprising:
soft-robot's color designation manipulating means for enabling said user to
designate and change a color of at least a part of said soft-robot under
luminescent light to store said color;
color-designated soft-robot display control means for controlling said
soft-robot display control means to display said color-designated
soft-robot by reflecting said lighting environment condition data at a
location of said soft-robot.
6. The simulator of claim 4, further comprising:
soft-robot's color designation manipulating means for enabling said user to
designate and change a color of at least a part of said soft-robot under
luminescent light to store said color;
color-designated soft-robot display control means for controlling said
soft-robot display control means to display said color-designated
soft-robot by reflecting said lighting environment condition data at a
location of said soft-robot.
7. The simulator of claim 3, further comprising:
soft-robot's color designation manipulating means for enabling said user to
designate and change a color of at least a part of said soft-robot under
luminescent light to store said color;
color-designated soft-robot display control means for controlling said
soft-robot display control means to display said color-designated
soft-robot by reflecting said lighting environment condition data at a
location of said soft-robot.
8. A simulator for producing an environment for simulation visually in
accordance with a user's manipulation, said simulator comprising:
stereoscopic viewing means to be put on said user's eyes;
input means for inputting necessary data to produce an environment subject
to visual simulation prior to a simulation;
storage means for storing data inputted by said input means;
stereoscopic environment producing means for producing an environment in
said stereoscopic viewing means based data stored in said storage means;
soft-robot producing means for producing a soft-robot within said
environment;
soft-robot's location designating means for enabling said user to designate
and amend a location of said soft-robot within said environment;
physical condition data input means for inputting data necessary to
determine a physical condition within said environment, said physical
condition data corresponding to data stored in said storage means;
physical condition data storage means for storing said data inputted by
said physical condition data input means;
physical condition data calculating-storing means for calculating a value
representing said physical condition data related to a location of said
soft-robot within said environment designated by said soft-robot's
location designating means using at least a part of said physical
condition data stored in said physical condition data storage means to
store a calculation result;
soft-robot display rule input means for inputting a rule that regulates a
relation between said value and a soft-robot display manner prior to
producing of said soft-robot;
soft-robot display rule storage means for storing said rule inputted by
said soft-robot display rule input means;
soft-robot display manner determining means for determining a soft-robot
display manner based on a calculation result stored in said physical
condition data calculating-storing means and said rule stored in said
soft-robot display rule storage means; and
soft-robot display manner control means for controlling said stereoscopic
viewing means to display said soft-robot in accordance with a manner
determined by said soft-robot display manner determining means by
synthesizing said soft-robot and said environment.
9. The simulator of claim 8, further comprising
physical condition data change manipulating means for enabling user to
change at least a part of data stored in said physical condition data
storage means used for a calculation of said physical condition data at a
location of said soft-robot into at least one of other data and new input
data; and
physical condition data change manipulation effecting means for effecting,
when said user effects said change using said physical condition data
change manipulating means, an amending operation necessary for a
calculation, determination, synthesis and display associated with said
change to said physical condition data storing means, said soft-robot
display manner determining means, and said soft-robot display manner
control means.
10. The simulator of claim 9, wherein
said soft-robot's location designating means includes:
a detecting unit for detecting at least one of an manipulation causing a
magnetic change, a manipulation causing an acceleration, a button pushing
manipulation, and a switching manipulation by a movement of said user's
one hand; and
a detection manipulation converting unit for converting a detection result
of said detecting unit into designation and amendment commands related to
said soft-robot's location.
11. The simulator of claim 10, wherein
said soft-robot's location designating means further includes:
a speech input unit for accepting a speech input from said user; and
a verbal command converting unit for converting said speech accepted by
said speech input unit into the designation and amendment commands related
to said soft-robot's location.
12. The simulator of claim 11, wherein
said physical condition data input means includes:
an air-circulation condition data input unit for inputting data that
determines a condition related to an air circulation, and
wherein said physical condition data calculating-storing means includes:
a wind-direction and wind-speed distribution calculating-storing unit for
calculating a wind direction and wind speed distribution within said one
environment to store a calculating result, and
wherein said soft-robot display rule input means includes:
a string's sway rule input unit for inputting a relation between a
direction and a manner of a sway of a string in accordance with a
direction and a speed of a wind, said string being attached to at least
one point on said soft-robot, and
wherein said soft-robot display manner determining means includes:
a string display determining unit for determining a display manner of said
string based on said relation inputted by said string's sway rule input
unit as a determined soft-robot display manner.
13. The simulator of claim 11, wherein
said physical condition data input means includes:
an illuminance condition data input unit for inputting data that determine
a condition related to illuminance within said environment, and
wherein said physical condition data calculating-storing means includes:
an illuminance calculating-storing unit for calculating illuminance within
said one environment to store a calculation result, and
wherein said soft-robot display rule input means includes:
a face display rule input unit for inputting a content for at least one of
an expression and shades on said soft-robot's face in accordance with an
illuminance on the face, and
wherein said soft-robot display manner determining means includes:
a face display determining unit for determining at least one of the
expression and shades on said soft-robot's face in accordance with the
illuminance on the face to be displayed.
14. The simulator of claim 1, wherein
said physical condition data input means includes:
a sound condition data input unit for inputting a condition related to
sound within said environment, and
said physical condition data calculating-storing means includes:
a sound strength calculating-storing unit for calculating a sound strength
from a predetermined sound source to store a calculation result, and
wherein said soft-robot display rule input means includes:
a volume display rule input unit for inputting a content of a sound display
to be attached on said soft-robot in accordance with a sound strength
arriving at said soft-robot's ears, and
wherein said soft-robot display manner determining means includes:
a volume display determining unit for varying a volume display in
accordance with a volume arriving at said soft-robot's ears to be
displayed.
15. The simulator of claim 11, wherein
said physical condition data input means includes:
a temperature condition data input unit for inputting data that determine a
condition related to at least one of a temperature and an effective
temperature within said environment, and
wherein said physical condition data calculating-storing means includes:
a temperature calculating-storing unit for calculating one of the
temperature and effective temperature within said environment to store a
calculation result, and
wherein said soft-robot display rule input means includes:
a color rule input unit for inputting a content of a color to be attached
on at least one predetermined point on said soft-robot in accordance with
one of the temperature and effective temperature at said one predetermined
point, and
wherein said soft-robot display manner determining means includes:
a color display determining unit for determining to attach a color on said
predetermined point in accordance with one of the temperature and the
effective temperature at said one predetermined point to be displayed.
16. The simulator of claim 10, wherein
said physical condition data input means includes:
an air-circulation condition data input unit for inputting data that
determines a condition related to an air circulation, and
wherein said physical condition data calculating-storing means includes:
a wind-direction and wind-speed distribution calculating-storing unit for
calculating a wind direction and wind speed distribution within said one
environment to store a calculating result, and
wherein said soft-robot display rule input means includes:
a string's sway rule input unit for inputting a relation between a
direction and a manner of a sway of a string in accordance with a
direction and a speed of a wind, said string being attached to at least
one point on said soft-robot, and
wherein said soft-robot display manner determining means includes:
a string display determining unit for determining a display manner of said
string based on said relation inputted by said string's sway rule input
unit as a determined soft-robot display manner.
17. The simulator of claim 10, wherein
said physical condition data input means includes:
an illuminance condition data input unit for inputting data that determine
a condition related to illuminance within said environment, and
wherein said physical condition data calculating-storing means includes:
an illuminance calculating-storing unit for calculating illuminance within
said one environment to store a calculation result, and
wherein said soft-robot display rule input means includes:
a face display rule input unit for inputting a content for at least one of
an expression and shades on said soft-robot's face in accordance with an
illuminance on the face, and
wherein said soft-robot display manner determining means includes:
a face display determining unit for determining at least one of the
expression and shades on said soft-robot's face in accordance with the
illuminance on the face to be displayed.
18. The simulator of claim 10, wherein
said physical condition data input means includes:
a sound condition data input unit for inputting a condition related to
sound within said environment, and
said physical condition data calculating-storing means includes:
a sound strength calculating-storing unit for calculating a sound strength
from a predetermined sound source to store a calculation result, and
wherein said soft-robot display rule input means includes:
a volume display rule input unit for inputting a content of a sound display
to be attached on said soft-robot in accordance with a sound strength
arriving at said soft-robot's ears, and
wherein said soft-robot display manner determining means includes:
a volume display determining unit for varying a volume display in
accordance with a volume arriving at said soft-robot's ears to be
displayed.
19. The simulator of claim 10, wherein
said physical condition data input means includes:
a temperature condition data input unit for inputting data that determine a
condition related to at least one of a temperature and an effective
temperature within said environment, and
wherein said physical condition data calculating-storing means includes;
a temperature calculating-storing unit for calculating one of the
temperature and effective temperature within said environment to store a
calculation result, and
wherein said soft-robot display rule input means includes:
a color rule input unit for inputting a content of a color to be attached
on at least one predetermined point on said soft-robot in accordance with
one of the temperature and effective temperature at said one predetermined
point, and
wherein said soft-robot display manner determining means includes:
a color display determining unit for determining to attach a color on said
predetermined point in accordance with one of the temperature and the
effective temperature at said one predetermined point to be displayed.
20. The simulator of claim 9, wherein
said physical condition data input means includes:
an air-circulation condition data input unit for inputting data that
determines a condition related to an air circulation, and
wherein said physical condition data calculating-storing means includes:
a wind-direction and wind-speed distribution calculating-storing unit for
calculating a wind direction and wind speed distribution within said one
environment to store a calculating result, and
wherein said soft-robot display rule input means includes:
a string's sway rule input unit for inputting a relation between a
direction and a manner of a sway of a string in accordance with a
direction and a speed of a wind, said string being attached to at least
one point on said soft-robot, and
wherein said soft-robot display manner determining means includes:
a string display determining unit for determining a display manner of said
string based on said relation inputted by said string's sway rule input
unit as a determined soft-robot display manner.
21. The simulator of claim 9, wherein
said physical condition data input means includes:
an illuminance condition data input unit for inputting data that determine
a condition related to illuminance within said environment, and
wherein said physical condition data calculating-storing means includes:
an illuminance calculating-storing unit for calculating illuminance within
said one environment to store a calculation result, and
wherein said soft-robot display rule input means includes:
a face display rule input unit for inputting a content for at least one of
an expression and shades on said soft-robot's face in accordance with an
illuminance on the face, and
wherein said soft-robot display manner determining means includes:
a face display determining unit for determining at least one of the
expression and shades on said soft-robot's face in accordance with the
illuminance on the face to be displayed.
22. The simulator of claim 9, wherein:
said physical condition data input means includes:
a sound condition data input unit for inputting a condition related to
sound within said environment, and
said physical condition data calculating-storing means includes:
a sound strength calculating-storing unit for calculating a sound strength
from a predetermined sound source to store a calculation result, and
wherein said soft-robot display rule input means includes:
a volume display rule input unit for inputting a content of a sound display
to be attached on said soft-robot in accordance with a sound strength
arriving at said soft-robot's ears, and
wherein said soft-robot display manner determining means includes:
a volume display determining unit for varying a volume display in
accordance with a volume arriving at said soft-robot's ears to be
displayed.
23. The simulator of claim 9, wherein
said physical condition data input means includes:
a temperature condition data input unit for inputting data that determine a
condition related to at least one of a temperature and an effective
temperature within said environment, and
wherein said physical condition data calculating-storing means includes;
a temperature calculating-storing unit for calculating one of the
temperature and effective temperature within said environment to store a
calculation result, and
wherein said soft-robot display rule input means includes:
a color rule input unit for inputting a content of a color to be attached
on at least one predetermined point on said soft-robot in accordance with
one of the temperature and effective temperature at said one predetermined
point, and
wherein said soft-robot display manner determining means includes:
a color display determining unit for determining to attach a color on said
predetermined point in accordance with one of the temperature and the
effective temperature at said one predetermined point to be displayed.
24. A simulator of claim 8, wherein
said physical condition data input means includes:
an air-circulation condition data input unit for inputting data that
determines a condition related to an air circulation, and
wherein said physical condition data calculating-storing means includes:
a wind-direction and wind-speed distribution calculating-storing unit for
calculating a wind direction and wind speed distribution within said one
environment to storm a calculating result, and
wherein said soft-robot display rule input means includes:
a string's sway rule input unit for inputting a relation between a
direction and a manner of a sway of a string in accordance with a
direction and a speed of a wind, said string being attached to at least
one point on said soft-robot, and
wherein said soft-robot display manner determining means includes:
a string display determining unit for determining a display manner of said
string based on said relation inputted by said string's sway rule input
unit as a determined soft-robot display manner.
25. The simulator of claim 8, wherein
said physical condition data input means includes:
an illuminance condition data input unit for inputting data that determine
a condition related to illuminance within said environment, and
wherein said physical condition data calculating-storing means includes:
an illuminance calculating-storing unit for calculating illuminance within
said one environment to store a calculation result, and
wherein said soft-robot display rule input means includes:
a face display rule input unit for inputting a content for at least one of
an expression and shades on said soft-robot's face in accordance with an
illuminance on the face, and
wherein said soft-robot display manner determining means includes:
a face display determining unit for determining at least one of the
expression and shades on said soft-robot's face in accordance with the
illuminance on the face to be displayed.
26. The simulator of claim 8, wherein
said physical condition data input means includes:
a sound condition data input unit for inputting a condition related to
sound within said environment, and
said physical condition data calculating-storing means includes:
a sound strength calculating-storing unit for calculating a sound strength
from a predetermined sound source to store a calculation result, and
wherein said soft-robot display rule input means includes:
a volume display rule input unit for inputting a content of a sound display
to be attached on said soft-robot in accordance with a sound strength
arriving at said soft-robot's ears, and
wherein said soft-robot display manner determining means includes:
a volume display determining unit for varying a volume display in
accordance with a volume arriving at said soft-robot's ears to be
displayed.
27. The simulator of claim 8, wherein
said physical condition data input means includes:
a temperature condition data input unit for inputting data that determine a
condition related to at least one of a temperature and an effective
temperature within said environment, and
wherein said physical condition data calculating-storing means includes;
a temperature calculating-storing unit for calculating one of the
temperature and effective temperature within said environment to store a
calculation result, and
wherein said soft-robot display rule input means includes:
a color rule input unit for inputting a content of a color to be attached
on at least one predetermined point on said soft-robot in accordance with
one of the temperature and effective temperature at said one predetermined
point, and
wherein said soft-robot display manner determining means includes:
a color display determining unit for determining to attach a color on said
predetermined point in accordance with one of the temperature and the
effective temperature at said one predetermined point to be displayed.
28. A simulator for producing an environment for simulation visually in
accordance with a user's manipulation, said simulator comprising:
stereoscopic viewing means to be put on said user's eyes;
input means for inputting necessary data to produce an environment subject
to visual simulation prior to a simulation;
storage means for storing data inputted by said input means;
stereoscopic environment producing means for producing an environment in
said stereoscopic viewing means based data stored in said storage means;
symbol producing means for producing a symbol within said environment, said
symbol indicating a value representing a physical condition within said
environment visually;
symbol's location designating means for enabling said user to designate and
change a location of said symbol within said environment;
physical condition data input means for inputting data necessary to
determine a physical condition within said environment, said physical
condition data corresponding to data stored in said storage means;
physical condition data storage means for storing said data inputted by
said physical condition data input means;
physical condition data calculating-storing means for calculating a value
representing said physical condition at a location of said symbol
designated by said symbol location designating means using at least a part
of data stored in said physical condition data storage means to store a
calculation result;
symbol display rule input means for inputting a rule that determines a
relation between said value representing said physical condition at said
symbol's designated location and a display manner;
symbol display rule storage means for storing said rule inputted by said
symbol display rule input means;
symbol display manner determining means for determining a display manner of
said symbol based on said calculation result stored in said physical
condition data calculating-storing means and said rule stored in said
symbol display rule storage means; and
symbol display manner control means for displaying said symbol in a manner
determined by said symbol display manner determining means by synthesizing
said symbol and said one environment.
29. The simulator of claim 28, further comprising:
physical condition data change manipulating means for changing at least a
part of data used for a calculation of said physical condition at said
symbol's location within said environment into at least one of other data
and newly input data, said part of data being stored in said physical
condition data storing means; and
physical condition data change manipulation effecting means for effecting,
when said user effects said change using said physical condition data
change manipulating means, an amendment operation necessary for a
calculation, determination, synthesis, and display in accordance with said
change to said physical condition data calculating-storing means, said
symbol display manner determine display, and said symbol display manner
control means.
30. The simulator of claim 29, wherein
said symbol's location designating means includes:
a detecting unit for detecting at least one of an manipulation causing a
magnetic change, a manipulation causing an acceleration, a button pushing
manipulation, and a switching manipulation by a movement of one hand of
said user; and
a detection manipulation converting unit for converting a detection content
by said detecting unit into designation and amendment commands related to
said symbol's location from said user.
31. The simulator of claim 30, wherein
said symbol's location designating means further includes:
a speech input unit for accepting a speech of said user;
a verbal command converting unit for converting said speech accepted by
said speech input unit into the designation and amendment commands related
to said symbol's location.
32. The simulator of claim 31, wherein
said symbol display rule input means includes:
a numerical value display rule input means for inputting a rule to display
a numerical value representing a physical value as a rule determining a
relation between said physical value of said environment and a symbol's
display manner.
33. The simulator of claim 30, wherein
said symbol display rule input means includes:
a numerical value display rule input means for inputting a rule to display
a numerical value representing a physical value as a rule determining a
relation between said physical value of said environment and a symbol's
display manner.
34. A simulator for producing an environment for simulation visually in
accordance with a user's manipulation, said simulator comprising;
stereoscopic viewing means to be put on said user's eyes;
input means for inputting necessary data to produce an environment subject
to visual simulation prior to a simulation;
storage means for storing data inputted by said input means;
user's location input manipulating means for enabling said user to
designate and amend said user's location within said environment;
stereoscopic environment producing means for producing said environment
within said stereoscopic viewing means in accordance with a location of
said user inputted by said user's location input manipulating means based
on data stored in said storage means;
boundary recognizing means for recognizing a boundary of said environment
based on data stored in said storage means;
outside-boundary-user recognizing means for recognizing a current location
of said user based in an input by said user's location input manipulating
means to detect a case when said user walks out of said environment based
on said boundary, and for subsequently finding a relation between a latest
location of said user within said environment and a current location
outside of said environment; and
outside-boundary-user guiding means for producing information, upon a
receipt of a notice of said relation from said outside-boundary-user
recognizing means, related to said relation in said stereoscopic viewing
means by referring to data stored in said storage means.
35. The simulator of claim 34, wherein
said user's location input manipulating means includes:
a detecting unit for detecting at least one of an manipulation causing a
magnetic change, a manipulation causing an acceleration, a button pushing
manipulation, and a switching manipulation by a movement of one hand of
said user; and
a detection manipulation converting unit for converting a detection content
by said detecting unit into designation and amendment commands related to
said user's location from said user.
36. The simulator of claim 35, wherein said outside-boundary-user guiding
means includes:
a view-through-transparent-wall producing means for producing a view seen
from said user's current location outside of said environment through a
wall erected between said user's current location and said latest location
within said environment by making said wall transparent.
37. The simulator of claim 34, wherein said outside-boundary-user guiding
means includes:
a view-through-transparent-wall producing means for producing a view seen
from said user's current location outside of said environment through a
wall erected between said user's current location and said latest location
within said environment by making said wall transparent.
38. A simulator for producing an environment for simulation visually in
accordance with a user's manipulation, said simulator comprising:
stereoscopic viewing means to be put on said user's eyes;
input means for inputting necessary data to produce an environment subject
to visual simulation prior to a simulation;
storage means for storing data inputted by said input means;
stereoscopic environment producing means for producing said environment
within said stereoscopic viewing means based data stored in said storage
means;
physical condition data input means for inputting data necessary to
determine a physical condition within said environment, said physical
condition data corresponding to data stored in said storage means;
physical condition data storage means for storing said physical condition
data inputted from said physical condition data input means;
physical condition distribution calculating-storing means for calculating a
distribution of said physical condition based on data inputted from said
physical condition data input means to store a calculation result;
virtual plane setting manipulating means for setting at least one virtual
plane within said environment at a command from said user; and
contour line map drawing means for drawing a contour line map of said
physical condition data within said one environment on said virtual plane
based on said physical condition distribution, and for synthesizing said
contour line map and said environment to display a result in said
stereoscopic viewing means.
39. The simulator of claim 38, further comprising:
detecting means for detecting at least one of an manipulation causing a
magnetic change, a manipulation causing an acceleration, a button pushing
manipulation, and a switching manipulation by a movement of one hand of
said user; and
virtual plane amending command converting means for converting a detection
result by said detecting means into a command related to a change of one
of a location and a direction of said virtual plane from said user; and
virtual plane setting amending means for amending one of the location and
direction of said virtual plane based on a converting result by said
virtual plane amending command converting means.
40. The simulator of claim 39, wherein
said virtual plain setting means includes:
a plural-virtual-plains setting unit for setting more than one virtual
plain, and wherein
said contour line map drawing means includes:
a colore contour line map displaying unit for coloring each contour line
map in different colors to be displayed stereoscopically when said
plural-virtual-plains setting unit sets a plurality of said virtual
plains.
41. The simulator of claim 40, wherein
said physical condition data input means includes:
an illuminance condition data input unit for inputting data related to
illuminance as data necessary to determine said physical condition, and
wherein
said physical condition distribution calculating-storing means includes:
an illuminance distribution calculating-storing unit for calculating an
illuminance distribution within said environment as said physical
condition distribution to store a calculation result, and
wherein said contour line map drawing means includes,
an illuminance contour line map drawing unit for displaying an illuminance
contour line map on said virtual plane.
42. The simulator of claim 40, wherein
said physical condition data input means includes:
a temperature condition data input unit for inputting data related to a
temperature as data necessary to determine said physical condition, and
wherein said physical condition distribution calculating-storing means
includes:
a temperature distribution calculating-storing unit for calculating a
temperature distribution as said physical condition distribution to store
a calculation result, and
wherein said contour line map drawing means includes:
a temperature contour line map drawing unit for drawing a temperature
contour line map on said virtual plane.
43. The simulator of claim 40, wherein
said physical condition data input means includes:
a sound condition data input unit for inputting at least one of a
predetermined quality sound and a sound from a sound source as data
necessary to determine said physical condition, and
wherein said physical condition distribution calculating-storing means
includes:
a sound distribution calculating-storing unit for calculating at least one
of said predetermined quality sound and said sound from said sound source
as said physical condition distribution to store a calculation result, and
wherein said contour line map drawing means includes:
a sound contour line map drawing unit for drawing a sound contour line map
on said virtual plane for display.
44. The simulator of claim 39, wherein
said physical condition data input means includes:
an illuminance condition data input unit for inputting data related to
illuminance as data necessary to determine said physical condition, and
wherein
said physical condition distribution calculating-storing means includes:
an illuminance distribution calculating-storing unit for calculating an
illuminance distribution within said environment as said physical
condition distribution to store a calculation result, and
wherein said contour line map drawing means includes,
an illuminance contour line map drawing unit for displaying an illuminance
contour line map on said virtual plane.
45. The simulator of claim 39, wherein
said physical condition data input means includes:
a temperature condition data input unit for inputting data related to a
temperature as data necessary to determine said physical condition, and
wherein said physical condition distribution calculating-storing means
includes:
a temperature distribution calculating-storing unit for calculating a
temperature distribution as said physical condition distribution to store
a calculation result, and
wherein said contour line map drawing means includes:
a temperature contour line map drawing unit for drawing a temperature
contour line map on said virtual plane.
46. The simulator of claim 39, wherein
said physical condi | | |
