U.S. patent application number 13/912427 was filed with the patent office on 2013-11-14 for generation of a demanufacturing price quote.
The applicant listed for this patent is International Business Machines Corporation. Invention is credited to Robert A. Keene.
Application Number | 20130304603 13/912427 |
Document ID | / |
Family ID | 32594676 |
Filed Date | 2013-11-14 |
United States Patent
Application |
20130304603 |
Kind Code |
A1 |
Keene; Robert A. |
November 14, 2013 |
GENERATION OF A DEMANUFACTURING PRICE QUOTE
Abstract
A system for generating a price quote to demanufacture a lot of
electronic equipment is disclosed. Representative equipment groups
are defined which include default values, based upon knowledge and
experience, and study values, based upon dismantle studies. When a
quote is requested to demanufacture a given lot of equipment, the
equipment in the lot is categorized into representative equipment
groups. As profit or loss is calculated for each equipment group,
if study values are available, the study values are used; otherwise
default values are used. Pricing contingency and profit may further
be calculated to generate the price quote.
Inventors: |
Keene; Robert A.; (Endicott,
NY) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
International Business Machines Corporation |
Armonk |
NY |
US |
|
|
Family ID: |
32594676 |
Appl. No.: |
13/912427 |
Filed: |
June 7, 2013 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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10329144 |
Dec 24, 2002 |
8489514 |
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13912427 |
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Current U.S.
Class: |
705/26.4 |
Current CPC
Class: |
Y02W 30/82 20150501;
G06Q 10/30 20130101; Y02W 90/00 20150501; G06Q 30/0283 20130101;
G06Q 30/06 20130101; Y02W 90/20 20150501; G06Q 10/06 20130101 |
Class at
Publication: |
705/26.4 |
International
Class: |
G06Q 10/00 20060101
G06Q010/00 |
Claims
1. A recordable medium comprising program code stored therein, said
medium not being a transitory propagating signal, said program code
upon being executed by a demanufacturing price quote processor
implements a method for generating a price quote for
demanufacturing and disposing of a given lot of end-of-life
electronic equipment in an environmentally safe manner, said
processor being a computer hardware processor, said method
comprising: receiving, by the demanufacturing price quote
processor, one or more default data values, said one or more
default data values comprising at least one default data value
having a monetary value; storing, by the demanufacturing price
quote processor, the one or more default data values in each
representative equipment group of a plurality of representative
equipment groups of electronic equipment; computing, by the
demanufacturing price quote processor, a respective group quantity
of electronic equipment in each representative equipment group;
computing, by the demanufacturing price quote processor, at least
one product by multiplying each default data value of the at least
one default data value by the respective group quantity;
calculating, by the demanufacturing price quote processor, a profit
or loss for each representative equipment group in dependence on
the computed at least one product; calculating, by the
demanufacturing price quote processor, a net profit or loss by
adding together the calculated profit or loss of the representative
equipment groups of the plurality of representative equipment
groups; ascertaining, by the demanufacturing price quote processor,
that the calculated net profit or loss is a net profit or a net
loss; adjusting, by the demanufacturing price quote processor, the
net profit or loss by increasing the net loss by a specified
pricing contingency factor; and determining, by the demanufacturing
price quote processor, the price quote using the adjusted net
profit or loss.
2. The recordable medium of claim 1, wherein for each
representative equipment group, the one or more default data values
are selected from the group consisting of part content data
identifying a quantity of reusable parts, part value data expressed
in monetary units per said reusable part, labor data comprising
times for performing labor tasks related to dismantling the
electronic equipment, labor cost data expressed in monetary units
per unit time for performing said labor tasks, weight data of
weight of electronic equipment, commodity content data of amount
and weight of commodities, commodity value data expressed in
monetary units of said commodities per unit weight, and
combinations thereof.
3. The recordable medium of claim 2, wherein for each
representative equipment group, the one or more default data values
comprise the part content data, the part value data, the labor
data, the labor cost data, the commodity content data, and the
commodity value data.
4. The recordable medium of claim 3, wherein for each
representative equipment group, the one or more default data values
further comprise the weight data.
5. The recordable medium of claim 1, wherein the at least one piece
of dismantled electronic equipment comprises computer
equipment.
6. The recordable medium of claim 1, wherein the specified pricing
contingency factor is 20%.
7. A system comprising a demanufacturing price quote processor and
a recordable medium having program code stored therein, said
processor being hardware, said medium not being a transitory
propagating signal, said program code upon being executed by the
processor implements a method for generating a price quote for
demanufacturing and disposing of a given lot of end-of-life
electronic equipment in an environmentally safe manner, said method
comprising: receiving, by the demanufacturing price quote
processor, one or more default data values, said one or more
default data values comprising at least one default data value
having a monetary value; storing, by the demanufacturing price
quote processor, the one or more default data values in each
representative equipment group of a plurality of representative
equipment groups of electronic equipment; computing, by the
demanufacturing price quote processor, a respective group quantity
of electronic equipment in each representative equipment group;
computing, by the demanufacturing price quote processor, at least
one product by multiplying each default data value of the at least
one default data value by the respective group quantity;
calculating, by the demanufacturing price quote processor, a profit
or loss for each representative equipment group in dependence on
the computed at least one product; calculating, by the
demanufacturing price quote processor, a net profit or loss by
adding together the calculated profit or loss of the representative
equipment groups of the plurality of representative equipment
groups; ascertaining, by the demanufacturing price quote processor,
that the calculated net profit or loss is a net profit or a net
loss; adjusting, by the demanufacturing price quote processor, the
net profit or loss by increasing the net loss by a specified
pricing contingency factor; and determining, by the demanufacturing
price quote processor, the price quote using the adjusted net
profit or loss.
8. The system of claim 7, wherein for each representative equipment
group, the one or more default data values are selected from the
group consisting of part content data identifying a quantity of
reusable parts, part value data expressed in monetary units per
said reusable part, labor data comprising times for performing
labor tasks related to dismantling the electronic equipment, labor
cost data expressed in monetary units per unit time for performing
said labor tasks, weight data of weight of electronic equipment,
commodity content data of amount and weight of commodities,
commodity value data expressed in monetary units of said
commodities per unit weight, and combinations thereof.
9. The system of claim 8, wherein for each representative equipment
group, the one or more default data values comprise the part
content data, the part value data, the labor data, the labor cost
data, the commodity content data, and the commodity value data.
10. The system of claim 9, wherein for each representative
equipment group, the one or more default data values further
comprise the weight data.
11. The system of claim 7, wherein the at least one piece of
dismantled electronic equipment comprises computer equipment.
12. The system of claim 7, wherein the specified pricing
contingency factor is 20%.
13. A recordable medium comprising program code stored therein,
said medium not being a transitory propagating signal, said program
code upon being executed by a demanufacturing price quote processor
implements a method for generating a price quote for
demanufacturing and disposing of a given lot of end-of-life
electronic equipment in an environmentally safe manner, said
processor being a computer hardware processor, said method
comprising: obtaining, by a demanufacturing price quote processor,
one or more data values describing at least one piece of dismantled
electronic equipment; receiving, by the demanufacturing price quote
processor, one or more dismantle study data values relating to the
obtained one or more data values, said one or more dismantle study
data values comprising at least one dismantle study data value
having a monetary value; storing, by the demanufacturing price
quote processor, the one or more dismantle study data values in
each representative equipment group of a plurality of
representative equipment groups of electronic equipment; computing,
by the demanufacturing price quote processor, a respective group
quantity of electronic equipment in each representative equipment
group; computing, by the demanufacturing price quote processor, at
least one product by multiplying each dismantle study data value of
the at least one dismantle study data value by the respective group
quantity; calculating, by the demanufacturing price quote
processor, a profit or loss for each representative equipment group
in dependence on the computed at least one product; calculating, by
the demanufacturing price quote processor, a net profit or loss by
adding together the calculated profit or loss of the representative
equipment groups of the plurality of representative equipment
groups; ascertaining, by the demanufacturing price quote processor,
that the calculated net profit or loss is a net loss; adjusting, by
the demanufacturing price quote processor, the net profit or loss
by increasing the net loss by a specified pricing contingency
factor; and determining, by the demanufacturing price quote
processor, the price quote using the adjusted net profit or
loss.
14. The recordable medium of claim 13, wherein for each
representative equipment group, the one or more dismantle study
data values are selected from the group consisting of part content
data identifying a quantity of reusable parts, part value data
expressed in monetary units per said reusable part, labor data
comprising times for performing labor tasks related to dismantling
the electronic equipment, labor cost data expressed in monetary
units per unit time for performing said labor tasks, weight data of
weight of electronic equipment, commodity content data of amount
and weight of commodities, commodity value data expressed in
monetary units of said commodities per unit weight, and
combinations thereof.
15. The recordable medium of claim 14, wherein for each
representative equipment group, the one or more dismantle study
data values comprise the part content data, the part value data,
the labor data, the labor cost data, the commodity content data,
and the commodity value data.
16. The recordable medium of claim 15, wherein for each
representative equipment group, the one or more dismantle study
data values further comprise the weight data.
17. The recordable medium of claim 13, wherein the at least one
piece of dismantled electronic equipment comprises computer
equipment.
18. The recordable medium of claim 13, wherein the specified
pricing contingency factor is 20%.
Description
[0001] This application is a continuation application claiming
priority to Ser. No. 10/329,144, filed Dec. 24, 2002.
CROSS REFERENCES TO RELATED APPLICATIONS
[0002] U.S. patent application Ser. No. 09/524,366, entitled
"METHOD OF DEMANUFACTURING A PRODUCT" by E. J. Grenchus et al., and
Ser. No. 09/923,470, entitled "SYSTEM AND METHOD FOR FORECASTING
DEMANUFACTURING REQUIREMENTS" by E. J. Grenchus et al., contain
subject matter related, in certain respect, to the subject matter
of the present application. The above-identified patent
applications are incorporated herein by reference.
FIELD OF THE INVENTION
[0003] The present invention generally relates to a method, system,
and program product for generating a demanufacturing price quote.
Specifically, the present invention allows price quotes to be
generated for the processing of end-of-life electronic equipment
that is to be dismantled, recycled or otherwise disposed of in an
environmentally safe manner.
BACKGROUND OF THE INVENTION
[0004] As the life cycle of computers and other complex electronic
equipment continues to decrease due to new technology and improved
processing performance, the useful life span of equipment has
become correspondingly shorter. Processing this equipment and
salvaging useful components and materials has become imperative
from both an economic and environmental standpoint. As a result,
dismantle and salvage, and other demanufacturing enterprises are
receiving an increasing volume and diversity of returned
end-of-life equipment. These enterprises are faced with the problem
of determining the potential value of, and processing expense for,
heterogeneous lots of equipment when generating price quotes to
process such lots of equipment. Usually, one or two predominant
factors, such as commodity market recovery prices or contaminated
material content, are taken into consideration by an agent of a
demanufacturing enterprise, who may add an intangible factor based
upon his or her personal experience to the decision process when
generating a price quote. However, in the electronics sector,
specifically when dealing with computers and other types of
information technology equipment, the variability of the internal
content and complexity of items contained within a given lot of
equipment makes this type of decision methodology impractical. A
quote may be generated at a price that is too low and therefore
unprofitable, or even worse, such that an enterprise may lose money
on the quote. Alternatively, a quote may also be too high, causing
an enterprise to lose the work being sought altogether, and thereby
lose revenue. Numerous factors such as brand, processor speed, type
of equipment, and system age must be taken into consideration,
affecting not only recovery potential, but processing expense. When
these factors are coupled with the volatility of prices in the
recyclable goods commodity markets, the decision process becomes
increasingly difficult. Given a situation where a customer does not
have a clear understanding of the internal content of the equipment
to be scrapped, generating a profitable, yet competitive price
quote becomes even more difficult.
[0005] In view of the foregoing, there exists a need for a method,
system and program product for generating a demanufacturing price
quote that, quickly and with relative accuracy, estimates the costs
and recoveries associated with a given heterogeneous lot of
electronic equipment.
[0006] It is believed, therefore, that a method, system and program
product for generating a demanufacturing price quote which provides
the many advantages taught herein would obviate many of the
problems and limitations described hereinabove, and would
constitute a significant advancement in the art.
OBJECTS AND SUMMARY OF THE INVENTION
[0007] It is a primary object of the present invention to enhance
the art of demanufacturing price quote generation.
[0008] It is another object of the invention to provide a method
(and system and program product) for generating a demanufacturing
price quote which functions in a new and unique manner.
[0009] It is yet another object of the invention to provide a
method (and system and program product) for generating a
demanufacturing price quote that, quickly and with relative
accuracy, estimates the costs and recoveries associated with a
given lot of electronic equipment.
[0010] In accordance with one embodiment of the invention, there is
provided a method for generating a demanufacturing price quote
comprising providing a list describing at least one piece of
equipment, defining at least one representative equipment group,
determining and storing at least one default data value in said at
least one representative equipment group, categorizing said at
least one piece of equipment into said at least one representative
equipment group, determining a group quantity of equipment in said
at least one representative equipment group, multiplying said group
quantity of equipment by said at least one default data value, and
calculating a profit or loss for said at least one representative
equipment group.
[0011] In accordance with another embodiment of the invention,
there is provided a method for generating a demanufacturing price
quote comprising providing a list describing at least one piece of
equipment, defining at least one representative equipment group,
determining and storing default data values in said at least one
representative equipment group, storing study data values in said
at least one representative equipment group if said data study
values have been determined, categorizing said at least one piece
of equipment into said at least one representative equipment group,
determining a group quantity of equipment in said at least one
representative equipment group, multiplying said study values and
said group quantity if said study values exist for said at least
one representative equipment group, or multiplying said default
data values and said group quantity if said study values do not
exist for said at least one representative equipment group, and
calculating a profit or loss for said at least one representative
equipment group.
[0012] In accordance with yet another embodiment of the invention,
there is provided a system for generating a demanufacturing price
quote comprising at least one representative equipment group having
just default data values, or both default data values and study
data values, and a demanufacturing price quote processor adapted to
utilize said study data values if said study data values exist for
said at least one representative equipment group, or to utilize
said default data values if said study data values do not exist for
said at least one representative equipment group.
[0013] In accordance with yet another embodiment of the invention,
there is provided a program product stored on a recordable medium
for generating a demanufacturing price quote, which when executed,
comprises program code for providing a list describing at least one
piece of equipment, program code for defining at least one
representative equipment group, program code for determining and
storing at least one default data value in said at least one
representative equipment group, program code for categorizing said
at least one piece of equipment into said at least one
representative equipment group, program code for determining a
group quantity of equipment in said at least one representative
equipment group, program code for multiplying said group quantity
of equipment by said at least one default data value, and program
code for calculating a profit or loss for said at least one
representative equipment group.
[0014] In accordance with yet another embodiment of the invention,
there is provided a program product stored on a recordable medium
for generating a demanufacturing price quote, which when executed,
comprises program code for providing a list describing at least one
piece of equipment, program code for defining at least one
representative equipment group, program code for determining and
storing default data values in said at least one representative
equipment group, program code for storing study data values in said
at least one representative equipment group if said data study
values have been determined, program code for categorizing said at
least one piece of equipment into said at least one representative
equipment group, program code for determining a group quantity of
equipment in said at least one representative equipment group,
program code for multiplying said study values and said group
quantity if said study values exist for said at least one
representative equipment group, or multiplying said default data
values and said group quantity if said study values do not exist
for said at least one representative equipment group, and program
code for calculating a profit or loss for said at least one
representative equipment group.
BRIEF DESCRIPTION OF THE DRAWINGS
[0015] The above and other objects, features and advantages of the
present invention will be better understood by reading the
following more particular description of the invention in
conjunction with the accompanying drawings wherein:
[0016] FIG. 1 is a schematic view illustrating representative
equipment group data according to one embodiment of the
invention.
[0017] FIG. 2 is a flow diagram illustrating a process for
generating a price quote according to one embodiment of the
invention.
[0018] FIG. 3 is a schematic view illustrating a system for
generating a price quote according to one embodiment of the
invention.
[0019] The drawings are merely schematic representations, not
intended to portray specific parameters of the invention. The
drawings are intended to depict only typical embodiments of the
invention, and therefore should not be considered as limiting the
scope of the invention. In the drawings, like numbering represents
like elements.
BEST MODE FOR CARRYING OUT THE INVENTION
[0020] As indicated above, the present invention provides a method,
system and program product for generating a demanufacturing price
quote. Specifically, the present invention allows price quotes to
be generated, quickly and with relative accuracy, for the
processing of end-of-life electronic equipment that is to be
dismantled, recycled or otherwise disposed of, by estimating the
costs and recoveries associated with processing a given lot of
electronic equipment.
[0021] Referring to FIG. 1, there is shown an embodiment of
representative equipment group 100. When a demanufacturing
enterprise receives or develops a list of equipment describing the
contents of a given lot of equipment for which a demanufacturing
price quote is requested, a plurality of instances of
representative equipment group 100 are defined, and the equipment
listed as being contained in this lot of equipment is respectively
categorized into appropriate instances of representative equipment
group 100.
[0022] Some exemplary instances of equipment group 100 are
described hereinbelow. For Desktop PC's, instances of
representative equipment group 100 may comprise: CPU only--Old, CPU
only--New, Complete System--Old, and Complete System--New. For
Laptops, instances of representative equipment group 100 may
comprise: Laptop--Old and Laptop--New. For Intermediate Systems,
instances of representative equipment group 100 may comprise: Small
Server, Medium Rack Mounted, and Large Rack Mounted. For Large
Systems, instances of representative equipment group 100 may
comprise: DASD and Mainframes. For Monitors, instances of
representative equipment group 100 may comprise: Monitor
Old--Small, Monitor Old--Medium, Monitor Old--Large, Monitor Late
Model--Small, Monitor Late Model--Medium, Monitor Late
Model--Large, Terminals, and Flatscreen. For Printers, instances of
representative equipment group 100 may comprise: Printer--Dot
Matrix, Printer--Inkjet, Printer--Greenbar, Printer--Laser,
Printer--Network, Printer--Mainframe, Plotter--Personal, and
Plotter--Business. For Point of Sale Systems, instances of
representative equipment group 100 may comprise: Point of Sale
System--Monitor Separate, Point of Sale System--CRT Type Monitor,
Point of Sale System--Printer, Point of Sale System--Monitor and
Printer. Other miscellaneous instances of representative equipment
group 100 may comprise: Keyboard, Scanner, FAX Machine,
Copier--Tabletop, Copier--Freestanding, Docking Station, Hubs,
Switches, Modems, Telephones, and Uninterruptible Power Supply
(UPS).
[0023] These instances of representative equipment group 100,
described hereinabove by way of example, are not intended to
portray an exhaustive list, and as many additional instances of
equipment group 100 as there are known types of electronic
equipment may be defined.
[0024] For each instance of representative equipment group 100 that
is defined, a plurality of data values relevant to the instance are
determined and stored in the instance. If data values are
determined based upon the personal knowledge or experience of an
agent of a demanufacturing enterprise, or another person with
relevant knowledge or experience in the field of demanufacturing,
these data values are stored as default data values 102.
Alternatively, if data values are determined based upon a dismantle
study of a piece of equipment that is typical, and representative
of, a given instance of equipment group 100, these data values are
stored as study data values 104. A dismantle study is an
investigation wherein an experienced demanufacturing worker, or
workers, dismantle a piece of equipment, and a record is kept of
data values related to the piece of equipment. If a plurality of
dismantle studies for a given instance of equipment group 100 are
available, respective data values of the plurality of studies may
be averaged, providing an improvement in the representativeness of
the data values as compared to a single study.
[0025] Examples of data values that may be stored in an instance of
representative equipment group 100 as default data values 102 and
study data values 104 are described with reference to FIG. 1
hereinbelow.
[0026] Part content 106 comprises data as to whether an instance of
representative equipment group 100 contains reusable parts that may
be removed and sold, as well as the type and quantity of these
parts. It is generally preferred that a part be sold rather than
shredded and recycled, as selling a part generally provides a
greater financial return, and reduces disposal costs that would
otherwise be incurred. Part value 108 comprises data as to the
market value of the parts of part content 106. Part value 108 may
be expressed in units of monetary value per part, in one example
dollars per part.
[0027] Labor 110 comprises data regarding amounts of time
respectively utilized to perform tasks related to demanufacturing
an instance of representative equipment group 100. Labor 110 tasks
may comprise transportation, receipt, inventory, handling, limited
dismantle, dismantle, shred, module sales, part sales, machines
sales, and other. Labor 110 may be expressed in units of time, for
example in hours or minutes. Labor Cost 112 comprises data
regarding labor rates for performing the tasks of labor 110. A
single labor rate may be utilized for all the tasks of labor 110,
different rates may be respectively utilized for different
categories of labor of labor 110 (e.g. one rate may be utilized for
dismantle tasks, and another may be utilized for sales tasks), or
different rates may be respectively utilized for all the tasks of
labor 110. Labor rates may be determined during periodic financial
planning cycles of demanufacturing enterprises. Labor cost 112 may
be expressed in units of monetary value per units of time, in one
example dollars per hour.
[0028] Hazardous content 114 comprises data as to whether an
instance of representative equipment group 100 contains hazardous
material. If hazardous material, in one example Poly-Chlorinated
Biphenyls (also known as "PCBs"), are contained within an instance
of equipment group 100, special handling, and therefore additional
labor costs, may be required to ensure the safety of
demanufacturing workers, or to comply with government regulations.
Also, significant hazardous material disposal costs may ensue.
[0029] Weight 116 comprises data as to the weight of an instance of
representative equipment group 100. This data may be utilized to
estimate labor comprising transportation, receipt, inventory, and
handling, as well as commodity content and trash content which are
described hereinbelow. Weight 116 may be expressed in units of
weight, for example pounds or kilograms.
[0030] Commodity content 118 comprises data as to whether an
instance of representative equipment group 100 contains commodities
that may be removed and sold, as well as the types and amounts of
these commodities. Commodity content 118 types may comprise steel,
aluminum--high, aluminum--mixed, copper--high, copper--mixed,
copper--foil, copper--trim, silver--wire, gold--high, gold--mixed,
gold--ends, platinum--high, platinum--mixed, plastic, softfoam,
glass, paper, cardboard, and other. Commodity content 118 types may
also comprise components, or even an entire piece of equipment,
that are sold as commodities rather than reusable parts. Commodity
content 118 types may therefore further comprise a complete piece
of equipment, keyboards, disk drives, blowers, fans, pumps, hoses,
and wire. Commodity content 118 amounts may comprise respective
percentages, by weight, of given commodity content 118 types
contained in the instance of equipment group 100. A total quantity
of a given commodity content 118 type may therefore be estimated
using a respective commodity content 118 amount and weight data
from weight 116. Commodity value 120 comprises data as to the
market value of the commodities of commodity content 118. Commodity
value 120 data may be obtained from sources comprising quotes from
recycling and smelting enterprises, Internet websites such as the
"RecycleNet Composite Index--Online Market Prices" website, and
previous commodity sales. Commodity value 120 may be expressed in
units of monetary value per units of weight, in one example dollars
per pound.
[0031] Trash content 122 comprises data as to whether an instance
of representative equipment group 100 contains trash which may not
currently be sold or recycled, and which should therefore be
removed and disposed of in an environmentally safe manner. Trash
content 122 may further comprise data as to percentage of trash, by
weight, in the instance of equipment group 100. A total quantity of
trash in the instance of equipment group 100 may therefore be
estimated using percentage of trash data, by weight, from trash
content 122 and weight data from weight 116. Trash disposal cost
124 comprises data as to the cost to dispose of the trash of trash
content 122, for example hauling costs and landfill fees, in an
environmentally safe manner. Trash disposal cost 124 may be
expressed in units of monetary value per units of weight, in one
example dollars per pound.
[0032] Referring now to the flow diagram of FIG. 2, method steps
according to an embodiment of the present invention are shown.
[0033] A list of equipment in a given lot of equipment to be
demanufactured is received or developed in step 200. The equipment
in this lot of equipment is respectively categorized into
appropriate instances of representative equipment group 100 in step
202.
[0034] The quantity of equipment in an instance of representative
equipment group 100 (hereinafter referred to as "group quantity")
is determined in step 204 by computing the total number of pieces
of equipment in the instance of group 100. Processing for equipment
in the instance of equipment group 100 is determined in step 206.
This may comprise selling the equipment outright if a market for
the equipment exists, removing parts from the equipment if
resalable parts are contained therein, separating out and selling
commodity content, separating out and sending trash content to a
landfill, or any combination thereof.
[0035] In step 208, a determination is made as to whether or not
study data values 104 exist for the instance of representative
equipment group 100. If study data values 104 do exist for the
instance of group 100, in step 210 study data values 104 are
utilized and multiplied by the group quantity computed in step 204.
If study data values 104 do not exist for the instance of group
100, in step 212 default data values 102 are utilized and
multiplied by the group quantity computed in step 204.
[0036] Profit/Loss for the instance of equipment group 100 is
calculated in step 214 by adding all of the recoveries from
outright sales of intact equipment, sales of parts and commodity
content, and subtracting labor costs, transportation costs,
hazardous material disposal costs, trash disposal costs, and other
costs.
[0037] In step 216, a determination is made as to whether or not
there is another instance of representative equipment group 100
into which equipment was categorized in step 202, and which has not
yet been processed. If there is another instance of equipment group
100 which has not yet been processed, group quantity for this
instance of equipment group 100 is determined in step 204. If there
are no more instances of equipment group 100 to be processed,
profit/loss for all instances of equipment group 100 is calculated
in step 218 by adding together the profit/loss for each instance of
representative equipment group 100 into which equipment was
categorized in step 202.
[0038] Referring now to FIG. 3, a plurality of instances of
representative equipment group 100 are shown, each having
respective instances of default data values 102 and study data
values 104. Although five instances of equipment group 100 are
shown in FIG. 3, by way of example, as many instances of
representative equipment group 100 as there are known types of
electronic equipment may be defined.
[0039] Demanufacturing price quote processor 300 calculates a
profit/loss for processing a given lot of equipment according to
the method steps described hereinabove with reference to FIG.
2.
[0040] In one example, demanufacturing price quote processor 300
may be a spreadsheet program running on a personal computer or
workstation, however processor 300 may be any type of hardware,
software, or a combination of hardware and software. Any kind of
computer/server system(s), or other apparatus, such as special
purpose hardware or a circuit module, adapted for carrying out the
methods described herein, is suited. In one embodiment, a system
comprises the demanufacturing price quote processor 300 and a
recordable medium that stores program code which upon being
executed by the demanufacturing price quote processor 300
implements the methods of the present invention, wherein the
demanufacturing price quote processor 300 is a computer hardware
processor.
[0041] Demanufacturing price quote processor 300 incorporates
pricing contingency 302 into the profit/loss for processing the lot
of equipment which may serve to reduce financial risk associated
with the price quote being generated. If processor 300 has
calculated a profit, the profit is reduced by a pre-determined
amount, in one example 20%. If processor 300 has calculated a loss,
the loss is increased by a pre-determined amount, in one example
20%.
[0042] Demanufacturing price quote processor 300 also incorporates
profit 304 into the profit/loss for processing the lot of equipment
to produce demanufacturing price quote 306. Incorporating profit
304 into price quote 306 may serve to further reduce financial risk
associated with price quote 306.
[0043] As indicated hereinabove, it should be understood that the
present invention can be realized in hardware, software, or a
combination of hardware and software. Any kind of computer/server
system(s)--or other apparatus adapted for carrying out the methods
described herein--is suited. A typical combination of hardware and
software could be a general purpose computer system with a computer
program that, when loaded and executed, carries out the respective
methods described herein. Alternatively, a specific use computer,
containing specialized hardware for carrying out one or more of the
functional tasks of the invention, could be utilized. The present
invention can also be embedded in a computer program product, which
comprises all the respective features enabling the implementation
of the methods described herein, and which--when loaded in a
computer system--is able to carry out these methods. Computer
program, software program, program, or software, in the present
context mean any expression, in any language, code or notation, of
a set of instructions intended to cause a system having an
information processing capability to perform a particular function
either directly or after either or both of the following: (a)
conversion to another language, code or notation; and/or (b)
reproduction in a different material form.
[0044] While there have been shown and described what are at
present the preferred embodiments of the invention, it will be
obvious to those skilled in the art that various changes and
modifications may be made therein without departing from the scope
of the invention as defined by the appended claims.
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