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BACKGROUND OF THE INVENTION
This invention relates generally to the field of garment design, and more
particularly, to an improved method for obtaining one or plural designs
using a number of drawing steps and associated research.
Particularly in the field of women's apparel, it is common for an apparel
designer to design as many as thirty or more garments, during the course
of a single day, from which an executive designer, stylist, marketing
representative, manager or buyer will select possibly two or three
designs. Such selections are necessarily based upon subjective
considerations, and, accordingly, within reasonable limits, the greater
number of designs from which to select, the greater is the likelihood of
obtaining a satisfactory design or designs.
It is known in the art to provide work books in which pages are devoted to
individual components of garments, such as collars, sleeves, skirts,
bodices, and the like. The designer uses such books by starting with a
sheet of tracing paper upon which a fashion figure has been printed. Next,
a series of garment components are selected, and with each selection, the
tracing paper is oriented by placing it upon the sketch of the desired
component, and lining up the head and shoulders of the figure, such that
the desired printed sketch can be traced in proper relative position. This
procedure is continued until all of the required garment components have
been selected and traced upon the figure. After examination of the
completed drawing, component changes may be made by tracing all of the
components except those where change is desired, or by erasing a component
from an existing drawing, following which a new tracing of the desired
component or part, using a different sketch from the work book, is made.
Using such techniques, an adequate representation of a drawing can be
completed within a ten to fifteen minute period. However, repeating the
process with successive designs is tedious, and, very often, the
successive designs composed as a repeated process are very similar. In
such process, a number of complete designs are discarded by the designer
herself, with a corresponding waste or loss of design time. Often the
substitution of a single element constitutes the entire difference between
successive designs, and each entire design must nevertheless be fully
completed to provide a basis for visual comparison. This is especially
necessary where the final decision is not made by a designer, but by a
person who often lacks the capability for high structural visualization.
It is known in the art to provide a computer based system in which
representations of entire garment styles are stored and presented to a
customer for sales purposes, with an opportunity for the customer or
wearer to modify the design within predetermined limits with regard to
their measurements. However, such system does not contemplate the actual
design of a garment, but merely certain modifications to patterns used in
manufacturing.
In using such a system, an existing style or pattern is initially selected
by the customer from a catalog, and a catalog or identification number is
inserted into the system to retrieve the finished pattern from a data
bank. Such system is disclosed in U.S. Pat. No. 4,149,246 granted to
Robert N. Goldman, April 10, 1979. Such system, however, does not permit
actual design of a garment, but merely the modification of a previously
created pattern. It is specifically used to custom tailor a pattern to the
measurements of a client.
SUMMARY OF THE INVENTION
Briefly stated, the invention contemplates the provision of a series of
garment component designs and one or more corresponding figure forms, the
configurations of which are digitally recorded and stored in a computer
data base. The interfaced computer is provided with a cathode ray tube
graphic display, as well as means for providing hard copy. The components
are retrievable on an ephemeral basis by giving commands in the form
equivalent of pressing related keys on a keyboard in order to display
various components of a desired composite design on the cathode ray tube
display, it being possible to remove the display of a particular component
when it is determined that it is not satisfactory, and substituting the
display of another occurrence of the same component type until the design
has been established to the satisfaction of the designer or user. At this
point the design is permanently stored, given an identification number or
identifying name and subsequently hard copy can be made and the designer
or user provided with a permanent representation of the design. A series
of such designs can also be produced by merely altering one or more of the
components comprising the design, and further hard copy can also be made
for purposes of comparison, or multiple designs may be compared together
on the CRT screen. As part of the printout, it is possible to print
selected piece goods patterns, together with relative information
pertinent to such piece goods, specifications relative to the pattern,
construction and sizing as well. It will be apparent that designs can be
made with a total absence of any manual sketching, or in the cases where
the design is to partially consist of components which are not in the data
base, supplemental sketching can be produced either before or after the
printout is made, using the computer facility or by actually sketching
onto the printout report.
BRIEF DESCRIPTION OF THE DRAWINGS
In the drawings, to which reference will be made in the specification,
similar reference characters have been employed to designate corresponding
parts throughout the several views.
FIG. 1 is a schematic view of a fashion figure forming part of a completed
design in accordance with the invention.
FIG. 2 is a schematic view showing a plurality of possible skirt
components, any of which may be selected as a part of a composite design.
FIG. 3 is a similar schematic view showing a plurality of combination
bodice and sleeve components, any of which may be selected as a component
part of the same design.
FIG. 4 is a schematic view showing the composite of FIG. 1, and selections
from FIGS. 2 and 3 in assembled condition, as may be viewed upon a cathode
ray tube display.
FIG. 5 is a corresponding schematic rear view.
FIG. 6 is a schematic view showing a plurality of individual bodice
components.
FIG. 7 is a schematic view showing a plurality of individual collar
components.
FIG. 8 is a schematic view showing a plurality of individual sleeve
components.
FIG. 9 is a front elevational view of a blouse comprising an exemplary
selected design.
FIG. 10 is a front elevational view of a pattern of a front panel,
comprising a component of the design shown in FIG. 9.
FIG. 11 is an elevational view of a pattern of a back panel.
FIG. 12 is an elevational view of a sleeve element.
FIG. 13 is an elevational view of a pattern of a first pocket.
FIG. 13a is an elevational view of a pattern of a second pocket.
FIG. 14 is an elevational view of a collar.
FIG. 15 is an elevational view of a bound cuff.
FIG. 16 is a schematic view showing minimum, although expandable, computer
hardware required for implementing the disclosed method.
FIGS. 17 through 24, inclusive, and FIGS. 26 and 27 are schematic
representations of program routines implementing the use of the hardware
shown in FIG. 16.
FIG. 25 is a schematic representation of a screen layout forming part of a
visual display.
DETAILED DESCRIPTION OF THE DISCLOSED METHOD
In accordance with the invention, and referring to FIG. 1 in the drawing,
reference character 10 designates a sketch of a fashion figure of known
type, including a head portion 11 and neck portion 12, an upper torso
portion 13, a lower torso portion 14, arms 15, and legs 16.
FIG. 2 illustrates a plurality of skirt design portions 20, 21, and 22,
which may in many cases be borrowed from a single page of a work book, and
which are configured to match the fashion figure 10 shown in FIG. 1. FIG.
3 shows corresponding sleeve designs 23 and 24. It will be understood that
other components exemplifying collars, belts, and the like, may also be
prepared, and as many variations of each component are stored in a
computer data base. Additional fashion figures (not shown) corresponding
to the fashion figure 10, and showing other aspects of the figure, as for
example, front, left and right sides, are also prepared and stored in the
data base, there being corresponding displays of the design portions of
each garment component as well.
FIGS. 4 and 5 illustrate a composite display as might be seen on a cathode
ray tube in which an individual component from each of FIGS. 2 and 3 is
placed in superimposed relation upon the fashion figure 10. This
superimposition is accomplished by merely pressing keys on a keyboard, or
a combination of keys, or the equivalent, to provide an address to the
desired component in storage, in standard indexed fashion, and the
remaining parts of the component design are accomplished in a similar
process.
When the completed design is displayed, the designer then has an
opportunity to consider the design from the standpoint of possible
improvement. Upon viewing the entire design, it may be deemed desirable to
replace an individual component, such as a sleeve, and this is
accomplished by cancelling the display of the sleeve component present on
the cathode ray tube and substituting another sleeve component. The
process may be continued as long as desired until total satisfaction has
been obtained. At this point, the design is stored and can be transferred
to printout means, and FIGS. 4 and 5 illustrate a typical representation,
in which each component designated by using a different printout
character, such as X's, Y's, A's, O's, and the like, or when using the
printer-plotter, by the use of different color pens for plotting different
components, alternate use of a CRT camera to photograph the image of the
design off the CRT may also be performed.
It will be appreciated that the composition of the first of a series of
designs may require a certain amount of research time on the part of the
designer. However, succeeding similar designs, which may vary only in a
single component, can be readily created by merely retaining the previous
display during the printout function, and subsequently altering only the
desired component, following which another printout may be made. Thus,
since no manual sketching is required, after initial research, a skilled
designer may create hundreds of possible designs during the course of a
single session and have saved an enormity of redundant sketching and
examination as well as time and physical energy at completion.
The designer, in an alternate approach, may use the data base to establish
a given or fixed design while exploring in rapid fashion variations or
combinations of variations to one or more components at a time. For
example, the designer may select a bodice from the data base and have a
repetitive display of that bodice with all of the different sleeves and/or
all of the different collars, or a selection of bodice and skirt
combinations may be made with a subsequent selection of any of the
sleeves, collars and the like, and at the user's discretion, without
displaying the fashion figure, or any of the other components, the
presence of which might detract from consideration of the desired
components.
From a desired printout or CRT photograph, it is, of course, possible to
manually create corresponding patterns which may be duplicated in a
variety of sizes for the purpose of fabricating selected designs.
As is known in the art, patterns are placed upon the fabric, and the fabric
cut in accordance therewith, prior to sewing together to complete the
garment. In accordance with the present invention, these patterns are
prepared and stored in the data base in a digitally reproducable manner so
that they may be displayed upon the cathode ray tube by pressing
appropriate keys, exactly as the components are displayed in draped form
upon the fashion figure. Thus, upon the completion of a design and its
subsequent printout, the corresponding components may also be displayed on
the cathode ray tube, for checking, and obtained as a subsequent printout
to form part of the complete file of a given design. When subsequently
approved, the corresponding pattern sections are already present and need
not be redrawn. The sample size pattern can be expanded or reduced by
grading methods to any or all of a variety of sizes using computerized
plotting means, known in the art, as exemplified by that disclosed in U.S.
Pat. No. 4,058,849, granted Nov. 15, 1977 to William J. Fitzgerald.
When the selection of designs is finalized, the computer, by selection will
print out all the corresponding pattern pieces of the components and parts
of the garment needed to cut out piece goods and subsequently construct or
fabricate the desired garment. Specifications relating to and regarding
length of seams, widths of hems, dimension of collars, cuffs, pockets, and
other details may also be requested and included. Following the completion
of the design, each of the individual components 51-57 may be separately
viewed on the cathode ray tube, and printed out on separate sheets for
subsequent separation. Referring to FIGS. 9 through 15, inclusive, in the
drawings FIG. 9 illustrates an original composite design, designed, edited
and finalized by the user, generally indicated by reference character 50
with corresponding pattern pieces FIGS. 10 through 15. This design can be
constructed into a finished garment by assembling the pattern piece, first
and second front panels 52 with a rear panel 53, application of pockets 54
and 55 thereon shown in FIG. 9. A cuff 56 is sewn to each sleeve 57,
thereon until garment is completed.
DESCRIPTION OF HARDWARE
Referring to FIG. 16 in the drawings, there is illustrated a simple access
facility for implementing the disclosed method. This facility will include
a console 60, at which the designer may be seated, the console including a
graphic cathode ray tube 61, a keyboard 62, and a light pen 63 of known
type. The keyboard 62 is interfaced at 64 with a mini computer 65, the
computer in turn being interfaced at 66 for communication with other
computer systems, and to disk storage 67, a digitizer 68 and a plotter
printer 69. As all of the components 60-69 are readily commercially
available, they need not be described in great detail. Suitable digitizing
terminals, for example, might be Model OPTEC 30, available from Autotrol
Technology Corporation of 1250 North Washington Street, Denver, Colo.
Equally suitable is Series 800 available from California Computer Products
of 2411 West La Palma Avenue, Anaheim, Calif. A suitable color graphics
cathode ray tube is available under Model AED/512, from AED Incorporated
of 440 Potrero Avenue, Sunnyvale, Calif., as is Model 374 available from
Systems Research Laboratories of 2800 Indian Ripple Road, Dayton, Ohio. A
suitable plotter printer is available under Model 106X from California
Computer Products, above mentioned, and an equally suitable unit is
available under Model 7220 from Hewlett Packard Corporation of 16399 West
Bernardo Drive, San Diego, Calif. Where desired, printout may be obtained
through the use of CRT color camera, as for example, Model 4000 available
from Matrix Instruments of 230 Pegasus Avenue, Northvale, N.J. A wide
variety of central processors (mini computers) is also available. Typical
are Model HP 1000 available from Hewlett Packard, above mentioned, and
Series I available from IBM Corporation. While most central processor
units utilize disk storage of the specifications of the manufacturer, many
microprocessor base systems have available a wide variety of disk units.
In addition, practically all central processor units have a wide number of
tape or telecommunications interfaces available for use, where the
equipment will be installed in more than one location.
DESCRIPTION OF SOFTWARE
Upon commencing operation, the user is presented with a menu, which by
selecting one of the choices upon it, will cause the computer to execute
that design function. The menu is displayed upon the CRT and offers the
following choices:
______________________________________
1 START or CONTINUE a GARMENT DESIGN SESSION
2 PRINT OUT a COMPLETE GARMENT and
COMPONENT LIST
3 PERUSE THRU the COMPONENT DATABASE
4 PERFORM a FABRIC ANALYSIS
5 COMPARE DESIGNED GARMENTS
6 PURGE UNWANTED DESIGNS or COMPONENTS
from DATABASES
7 PRINT ANALYSIS STATISTICS
99 SHUT DOWN DESIGNER SYSTEM
______________________________________
Function 2 activates the printer plotter unit, and causes a user entered
named garment design to be printed out along with the components'
identifying numbers (which were selected by the designer).
Function 3 allows the user to examine "images" of previously stored
components in order to find one, enter a new one, or modify any existing
one. While examination is done by visual method, all data is stored or
modified with "data records" stored on disk.
Function 4 causes display or print of a fabric analysis report from data
derived from a design previously selected by the designer (using function
1 which will be described later).
Function 5 causes the comparative display or print of multiple garments
which were designed by the designer using function 1.
Function 6 allows any garment which was designed or any component entered
or modified during perusal (function 3) to be deleted (eliminated) from
the system. It also makes the space previously occupied by the item purged
available for any system use.
Function 7 prints the statistics for a particular garment which had been
designed previously in function 1.
Design Functions
Function 1 will cause a human figure outline to be displayed upon the
screen of the graphic CRT. Next, the user will be prompted for entry of a
"yes" or "no" response to the question: "Should I first continue from a
previously designed garment!". If the response is "yes", the system will
first superimpose the previously designed garment (after getting its name
from the user) upon the model human figure on the CRT screen, then will
proceed to the next step.
Next, the following sub-menu of choices will appear below the figure on the
screen:
______________________________________
1 Add/Replace Component
2 Color or Fabric Pattern
Component
3 Alter Component
4 Overlay Alternate Component
5 Remove Component
6 Save Garment
99 Exit Session
______________________________________
Choice 1 will allow a component identification to be entered. The system
will automatically position the component at the right point on the model
figure. If a component has already been placed at that point, it will be
replaced and forgotten.
Choice 2 will allow a color or fabric pattern from two hundred fifty six
choices to be filled into a component. If a color was already there, it
too will be replaced and forgotten.
Choice 3 will allow a component to be slightly modified in place on the
model as far as its positioning, seaming, and relative size. Modifications
will only be saved with the garment being designed, unless a special
command instructs the system to remember them as a "new garment
component".
Choice 4 will allow either the actual double superimposition of a second
component over a first or will allow rapid switching back and forth
between multiple choices of individual components of a single type (i.e.
sleeves or legs, but not both at the same time).
Choice 5 will simply remove a component from the displayed garment design.
A recall function command will allow the last removed component from any
location on the model figure to be repositioned upon the screen.
Choice 6 will allow either the simple saving of a garment design for future
modification or printing out, or it will allow a temporary copy of a
design to be held in a waiting area and displayed to the right of the
working copy. Depending upon the model of the design system, a variable
number of temporary copies will be able to be displayed along with the
working copy, and any of them saved as a finished design.
Referring to FIG. 17 in the drawing, there is illustrated a program
corresponding to system function 1 whereupon commencement of operation,
the display master menu is retrieved from memory to display the available
functions, which are in turn initiated by pressing the proper press
function key which transfers through the associated connector Pfn to the
associated subroutine as described above. At the completion of each
function, the flow of the programmed subroutine passes to the connector
designated "R" followed by the number of the function resulting in a
return to the display of the master menu. As many functions as desired may
be successively employed, following which the key designated "pf99" is
pressed to discontinue the operation of the system.
FIG. 18 illustrates a subroutine followed immediately after initiation of
operation, showing the display of a human figure prior to the placing of
garment components, with a separate display of the second level design
menu, and subfunction selection logic.
FIG. 19 illustrates a subroutine employed during system function no. 3,
that is the perusing through the component data base in serial fashion.
FIG. 20 illustrates a subroutine employed during system functions 2, 3, and
5, in the process of designing the garment, culminating in selection of
fabric or color, a perusal through the component data base, a comparison
of the design garments (function 5), and an ultimate printout (function
2).
FIG. 21 illustrates the program followed during the entry of data for a
completed design which is placed in storage for subsequent retrieval
(function 6). In this function, unwanted designs or components are
retrieved from the data bases to afford more storage space, and ultimately
stored as indexed records.
FIG. 22 illustrates the program for printing and plotting (function 2).
FIG. 23 illustrates the program for function 3, perusal through the
component data base, without more.
FIG. 24 illustrates the program for function 5, a comparative display
subsystem, in which multiple outlines are displayed seriatim for final
selection.
FIG. 25 illustrates a typical screen layout on the cathode ray tube,
wherein an upper portion of the tube may be reserved for message display,
and a lower portion of the tube reserved for vector display.
FIG. 26 illustrates a program for closing out of the data base certain
information printed and stored in a library.
FIG. 27 is an adjunct program which may be appended to the lower left hand
portion of FIG. 26.
Reference is made to FIGS. 17 through 25, as an example of one function of
the program, illustrated is the flow through the flow chart "Save
Garment". Beginning from start of FIG. 17, the program passes to initially
allow the operator to log in and display the master menu. Since "Save
Garment" is a garment design editing function, the operator presses PF key
1 to enlist garment edit function.
The program passes to a connector which leads to an entry point pf1 on FIG.
18. The garment edit subsystem takes control in calling the graphic
display logic and displays the fashion figure outline. A small menu of
garment designs functions is placed below the fashion figure outline and
the operator is prompted to choose a PF key.
Since "Save Garment" is required in the save garment return, the operator
presses pf6 which transfers the control to off page connector pf1.6 which
in turn passes control to entry point table pf1.6 on FIG. 21. NOTE:
normally this function would only be selected after a design would be
completely displayed on the fashion figure outline.
Enter point 1.6 first causes the system to prompt the operator for a name
or ID (identification) to save the design under or to file the newly
created design from the selected components. Then it (the system)
composites a list of components selected from the design on the screen out
of the temporary memory. The system converts these to a numerical, rather
than a graphic, list of component ID (which points back to component
images) and stores them as standard index records along with other
discretely associated information such as another name, date or other
analagous data. A system level catalog file operation is performed to
ensure the integrity of the data base.
Control passes to return to a connector passing back to a reentry point
labeled R1.6 on FIG. 18. This passes control to a connector labeled RM"1"
which causes the redisplay of the desired menu below the fashion figure
outline. At this point the operator may terminate the desired function by
pressing Pf99 which passes control to R1 on FIG. 17. This in turn passes
to connector RM which redisplays another menu of functions on the screen.
At this point the system may be terminated by Pf99 which is a sudo
connector passing control to connector RM99 which executes logic to
perform a system shutdown. At this point execution stops.
It may thus be seen that I have invented a novel and highly useful improved
method for creating apparel designs, and for facilitating the initial
stages of production, by means of which resort is made to existing
computer technology to materially simplify and expedite the preparation of
a plurality of graphic representations of apparel designs from which
selections can be made. To maintain the cost of necessary equipment at a
reasonably low level, it is necessary only that sketches be prepared by
the designers and submitted to a processing center having facilities for
preparing and storing the data base. The designer may be employed at an
establishment having computer terminal provisions, a cathode ray tube
display and printout means.
I wish it to be understood that I do not consider the invention limited to
the precise details of structure shown and set forth in this
specification, for obvious modifications will occur to those skilled in
the art to which the invention pertains.
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