EP1345470B1 - Method for manufacturing a body-worn electronic device adapted to the shape of an individual's body area - Google Patents
Method for manufacturing a body-worn electronic device adapted to the shape of an individual's body area Download PDFInfo
- Publication number
- EP1345470B1 EP1345470B1 EP03007673A EP03007673A EP1345470B1 EP 1345470 B1 EP1345470 B1 EP 1345470B1 EP 03007673 A EP03007673 A EP 03007673A EP 03007673 A EP03007673 A EP 03007673A EP 1345470 B1 EP1345470 B1 EP 1345470B1
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- EP
- European Patent Office
- Prior art keywords
- digitized representation
- detailing
- representation
- digitized
- shell
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R25/00—Deaf-aid sets, i.e. electro-acoustic or electro-mechanical hearing aids; Electric tinnitus maskers providing an auditory perception
- H04R25/65—Housing parts, e.g. shells, tips or moulds, or their manufacture
- H04R25/652—Ear tips; Ear moulds
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04R—LOUDSPEAKERS, MICROPHONES, GRAMOPHONE PICK-UPS OR LIKE ACOUSTIC ELECTROMECHANICAL TRANSDUCERS; DEAF-AID SETS; PUBLIC ADDRESS SYSTEMS
- H04R25/00—Deaf-aid sets, i.e. electro-acoustic or electro-mechanical hearing aids; Electric tinnitus maskers providing an auditory perception
- H04R25/65—Housing parts, e.g. shells, tips or moulds, or their manufacture
- H04R25/658—Manufacture of housing parts
Definitions
- the present invention is directed to a method for manufacturing a body-worn device, especially such electronic device which is adapted to suit the shape of an individual's body area.
- the process of manufacturing hearing devices starts customarily by taking a cast or impression of the ear, thereby especially of the ear canal including parts of the outer ear.
- the cast is roughly cut with respect to the type of device to be manufactured and the size and type of electronic components that will have to be placed in the device by assembling.
- the cast is detailed by surface-machining and local or overall waxing allows for smoothening the surface, increasing the shape of the cast and fixing cast inaccuracies.
- the resulting detailed cast is used for making a negative to be used as a mold, wherein a shell of the device is produced using e.g. UV-curable material.
- additional components as e.g. a vent is machined into the shell, holes are drilled for the receiver etc. and the resulting shell is finalized e.g. by grinding.
- the device is lastly terminated by assembling electronic components into the shell.
- WO 02/071794 shows a method of producing a shell of a hearing aid, whereby detailing of the shell is performed the way it had been done at a model which was selected as the most similar model amongst a plurality of models.
- a body-worn device especially electronic device, which is adapted to the shape of an individuals' body area and which comprises the steps of
- the at least one characteristic feature of the digitized representation By automatically determining the at least one characteristic feature of the digitized representation, information is provided of such characteristic feature as a basis for producing a shell. Because such determining is automatically performed reproducibility is improved. Finding of such characteristic features at the representation is not anymore subject to operator's expertise and personal preferences. The determined characteristic feature is an accurate basis for deciding how and where the digitized representation is to be detailed, so that again reproducibility of the detailed digitized representation and thus of the resulting shell is significantly improved.
- detailing comprises at least one of cutting, surface treating, offsetting, fixing, relaxing and increasing at least a part of the digitized representation, whereby such actions are performed digitally.
- the step of automatically determining the at least one characteristic feature comprises performing such determining by automatically investigating the digitized representation under the constraint of predetermined geometrical rules. Thereby, e.g rules with respect to curvature, surface areas of cross-sections, etc., of the digitized representation are investigated under predetermined criteria so as to find at the digitized representation the location of the respective characteristic feature.
- the determining step comprises comparing the digitized representation with a digital representation of a standard of the body area.
- characteristic features of the standard may be exploited as the respective characteristic features of the digitized representation actually treated and may thus be taken at least as a first approximation of such characteristic features to be automatically determined at the digitized representation.
- the step of preparing the digitized representation is performed by scanning a cast of the body area. In a further preferred embodiment the step of preparing the digitized representation is performed by three-dimensional scanning of the body area directly.
- step comprises providing such representation of the body area as one which has already been applied for manufacturing a body-worn device and which shall e.g. be improved, taking into account needs of the individual which have changed since the body-worn device had been manufactured. Such changing needs may be based e.g. on individual's growth, aging, etc.
- the step of preparing the digitized representation is performed by scanning a cast of the body area, whereby detailing comprises mechanically detailing the cast in dependency of the detailed digitized representation, thereby producing the shell from said mechanically detailed cast.
- the detailed digitized representation provides for information how to mechanically detail the cast.
- mechanical detailing of the cast is performed by digitally controlled treatment or machining.
- the mould which is produced in dependency of the detailed digitized representation.
- such mould producing may still be performed manually and based on the information from the detailed digitized representation, in a preferred mode such mould production is performed by a digitally controlled process, which is digitally controlled dependent from the detailed digitized representation.
- production of the shell is performed directly by means of a digitally controlled process, whereby such process control comprises controlling by the detailed digitized representation.
- the method according to the present invention comprises detailing the digitized representation in dependency of the at least one characteristic feature as determined. Departing therefrom and in a most preferred embodiment the method according to the present invention comprises the step of providing automatically at least one of detailing and of at least one suggestion for performing said detailing.
- the step of automatically providing at least one of detailing and of at least one suggestion for such detailing is performed on the basis of an expert system and of at least one predetermined target to be achieved.
- an expert system and of at least one predetermined target to be achieved.
- digitized representation of the outer ear and ear canal such digitized representation may be used for manufacturing an outside-the-ear device OTE, an in-the-ear device ITE or a completely in-the-canal CIC device, which devices obviously necessitate different detailing at the one digitized representation.
- such expert system is based on pre-established geometric rules and/or on recorded knowledge.
- a preferred generic embodiment of the method according to the present invention is to check accuracy of the prepared digitized representation and/or of the automatic determination of at least one characteristic feature by comparing the digitized representation and/or the at least one characteristic feature as determined respectively with a standard digitized representation and/or a standard characteristic feature.
- providing automatically at least one of detailing and of at least one suggestion comprises comparing the digitized representation with more than one digitized representations as approved to be accurate so as to find that approved digitized representation which best matches with the digitized representation as actually treated. There is generated the detailing step and/or said suggestion in dependency of the detailed digitized representation of the best matching digitized representation.
- the expert system is continuously updated in dependency of the detailed digitized representation actually treated, if latter reveals to be approved after producing the shell. Thereby, such approved detailed digitized representation is added to the further approved digitized representations for finding the best match so as to update comparison basis for such finding.
- the characteristic feature is preferably one of
- the characteristic feature is preferably one of
- the device manufactured is a hearing device, thereby, further preferred, an in-the-ear hearing device. Nevertheless, such a device may also be an outside-the-ear hearing device.
- the addressed devices are hearing aid devices.
- the detailed digitized representation data is stored in the device as manufactured.
- a digitized representation 1 from the outer ear and ear canal of an individual as a most preferred example of an individual's body area, whereat a device to be manufactured shall be applied.
- Characteristic features of such representation are e.g.:
- a digitized three-dimensional representation 1 of the area of interest of individual's body is in one embodiment prepared by performing a three-dimensional scan 3 by a scanner unit 3U of the area 5, e.g. of the outer ear and ear canal area 5.
- a scanner unit 3U of the area 5, e.g. of the outer ear and ear canal area 5.
- a cast 7 of individual's area of interest is then scanned - 9 - by a scanner unit 9U to result in the three-dimensional representation 1.
- the three-dimensional representation 1 may be provided from an earlier digitized three-dimensional representation of that area, which earlier representation shall be changed, e.g. updated. With an eye on ear canal representation this may become necessary with increasing age of the respective individual.
- V Visualized
- the digitized representation 1 of the outer ear and part of the ear canal is shown as an example in fig. 3a resulting by computerized applying an envelope surface, in a representation according to fig. 3b.
- the digitized representation 1 is the basis for automatically determining at least one characteristic feature thereat.
- Such characteristic features are found by applying predetermined geometric rules 15 to the digitized representation 1, thereby investigating the digitized representation data 1 with the constraint of such rules. For instance and with an eye on the digitized and visualized representation 1V according to the figs. 3a and 3b and as shown in fig. 3b, an outermost in-plane contour line N is detected in the digitized representation 1 e.g.
- a further characteristic feature of importance is the centre line or medial axis of the ear canal and part of the outer ear. This line is e.g. established by calculating the centre point P CN , i.e. the centre of weight of the plane-surface W N defined by the in-plane contour N.
- the slices, whereat the centre points P CX are calculated are e.g. established parallel to the plane of surface W N .
- the slices are angularly adjusted to be in planes perpendicularly to the first approximation of the centre line F yet found. This results in slightly shifted centre points, which thus define for a second approximation of the centre line F.
- first and second bends of the ear canal at the example addressed may or will be automatically determined.
- an analysis of curvature of the centre line F as of fig. 4 is performed in combination with an analysis of the outer surface of the digitized representation 1 and thereby especially its curvature, especially in direction of the centre line.
- a simplified rule for determining the first and second ear canal bends is the change of signum of curvature of the centre line F as schematically shown in fig. 5 with respectively directed curvature radii r + and r - .
- the aperture plane, whereat the ear canal starts departing from the outer ear is or may be computed by analyzing the sequence of slices perpendicularly and along the centre line F and following the rule that the surface area of such slices in direction from the ear canal towards the outer ear significantly increases there, where the aperture plane E is to be located. As shown in fig. 6 such an analysis following such a rule results in the finding of the entrance of canal plane E.
- a further possibility to find such characteristic features is to compare the digitized representation 1 with digitized representation 17 according to fig. 2 of same area of individual's body, which has been approved and established as a standard of a digitized representation of individual's body area.
- comparing the prevailing digitized representation 1 with the established standard representation 17 at least a first approximation of localizing the characteristic features as mentioned above at the digitized representation 1 under investigation is achieved.
- both possibilities, namely of determining the characteristic features based on rules 15 as well as based on a comparison with a standard 17 are performed.
- step 20 From the step 20 according to fig. 2 of determining automatically the characteristic features, or at least one thereof, at the digitized representation 1 there results such a digitized representation 1 with the recognized or determined characteristic features thereat.
- This is schematically shown in fig. 2 by the outcome of determining step 20 as a digitized representation 1' incorporating determined characteristic features.
- This "featurized" digitized representation 1' is e.g. visualized as shown in fig. 2 at display 13, leading e.g. to visualized representations according to figs. 3b to 6.
- the digitized representation 1' does not differ from the digitized representation 1, but incorporates the localized characteristic features, i.e. additional, automatically found information.
- a detailing step 22 By such detailing the digitized representation 1 is principally changed. Such change is performed based on the additional information as provided by the determined characteristic features. Some of the detailing actions will be unspecific to predetermined targets 24. As an example one customarily performed detailing action will be to perform a cut at the digitized representation 1' along the contour N according to the figs. 3b to 4.
- target or targets 24 By predetermining target or targets 24 it is established e.g. what type of device is to be manufactured.
- Detailing the digitized representation 1' may thereby preferably comprise at least one of digitally cutting, surface treating the digitized representation 1', offsetting locally parts thereof, fixing parts thereof having been detected as inaccurate, e.g. by comparing with standard 17 as explained above, relaxing the digitized representation.
- the detailing step 22 is preferably performed automatically and/or in dependency of automatically provided detailing suggestions to the operator.
- Such suggestions - which are automatically followed, if automatic detailing is performed - on how to change the representation 1' are automatically generated on the basis of an expert system 26, 28.
- the expert system preferably comprises on one hand geometric algorithms and rules 26 applied to the digitized representation 1' in view of a given target and/or on the other hand established knowledge 28.
- the detailing action is nevertheless preferably operator-controlled, OP.
- the operator may select to fully follow the automatically provided suggestion or may, as an expert, more or less depart from such suggestion.
- one target-related rule 26 is e.g. based on the fact that such a CIC device is to be placed deeply into the ear canal, reaching clearly beyond the first and up to nearly the second bend C, B, according to the definitions given in context with fig. 1.
- an automatically provided suggestion or an automatically performed action could be to cut the digitized representation 1' just upstream the first bend and just upstream the second bend.
- the characteristic feature "aperture plane" as of E of fig. 6 gives a further basis for the outermost cutting of the digitized representation 1' e.g. as a function of a further target 24, namely of what kind of a face-plate module is to be provided at the device to be manufactured.
- OP modules to be incorporated in the device to be manufactured are digitally localized at or within the digitized representation 1' and there is performed an automatic evaluation, where such modules are best located within the digital representation 1', taking e.g. further targets into account, as e.g. predetermined thickness of a shell module for the device. There is performed automatic moving of the modules in and along the digitized representation 1' to automatically provide detailing actions and/or a suggestion or suggestions for geometrically arranging such modules, tailoring the shell module, so that there occurs no module-collision.
- Additional targets are preferably considered, e.g. least visibility of the CIC from outside, taking different viewing angles into consideration.
- the detailing actions are performed at the digitized representation 1', whereby preferably the operator OP may interact with such detailing by possibly performing such detailing, as was outlined above, more or less differently than automatically suggested.
- the expert system 28 basing on expert knowledge is in a most preferred embodiment construed and operated as explained with the help of fig. 8.
- multiple digitized representations are provided, which after detailing have formerly resulted in satisfying shell and device manufacturing as approved by the involved individual and by the expert and with respect to devices applicable to the same body area as currently involved.
- the respective digitized representation 1 or 1' with the detailing information according to 1d and preferably the target 24 information is input to the expert system 28 to update and improve its database.
- both approaches namely the approach of detailing based on rules, as outlined above, as well as detailing on the basis of "best match” are combined, whereby detailing suggestions based on the "best match” approach are preferably taken as first approximation for detailing, which approximation is then improved by considering the rules 26.
- the expert system based on rules and knowledge 26, 28 is preferably continuously updated and improved by data of detailed digitized representations, which have resulted in devices, which optimally satisfy individual's needs. Obviously, devices and especially shells of devices, which turn out to be unsatisfying to the individual and which are e.g. returned by the individual due to bad detailing, are removed or are not entered with their respective digitized detailed representations to the expert systems 26, 28.
- the detailing step 22 results in a detailed digitized representation 1d.
- modules for the device to be manufactured namely the shell, possibly a face-plate, electronic modules, etc. has been considered.
- fig. 7 there is shown an example of a visualized detailed digitized representation 1dV combined with the target-specifically added modules as a face-plate 30, a shell 31, an electronic module 32.
- the detailed digitized representation 1d is directly applied to a digitally controlled process for performing the shell-manufacturing step 36. Nevertheless, the detailed digitized representation 1d may also be applied for digitally controlling, in an overworking step 38, cast machining if there has been performed scanning 9 of a cast 7 to retrieve the digitized representation 1 and thus a cast 7 has already been used. After mechanically detailing a cast in step 38, in a mould-forming step 40 a mould is formed and therefrom, in shell-forming step 36, the shell. In a still further embodiment the detailed digitized representation 1d is applied for controlling digitally-controlled processing of a mould 40, if e.g. a material is to be used for manufacturing the shell in step 36, which is rather suited for a moulding technique than for a digitally controlled shaping technique.
- Still another possibility is to manually overwork, in step 38, the cast or even, in step 40, the mould dependent from the information as gained from the detailed digitized representation 1d, e.g. via its visualization at monitor 13.
- an assembling step 38 the device is assembled with the already produced shell-module from step 36.
- the step 22 of automatic and preferably interactive detailing 22 in dependency of predetermined targets 24 and on the basis of a rule- and/or knowledge-based expert system 26, 28 are performed within a system according to the present invention, which comprises at least one storing unit for a data set representing a three-dimensional image and a processing unit, the input thereof being operationally connected to an output of the storing unit.
- the processing unit automatically generates a changed data set as performed by the automatic detailing action as was described.
- the detailed digitized representation 1d is further preferably stored in a respective storing unit (not shown) at the device as assembled. This leads to the possibility that the individual carries all the information for manufacturing especially his device's shell with him. This information may be easily retrieved and irrespective, where the individual resides and may be transmitted e.g. via internet to a facility with shell-manufacturing installations so as to easily order a replacement shell.
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Description
- The present invention is directed to a method for manufacturing a body-worn device, especially such electronic device which is adapted to suit the shape of an individual's body area.
- Although the present invention departs from objectives as encountered in the art of hearing device manufacturing and especially hearing aid device manufacturing, as will become apparent to the skilled artisan, it may be used for more generalized manufacturing of body-worn devices, especially electronic devices, whereat the outer shape of such device shall fit to specific body's areas of an individual.
- Therefore and without an intended limitation of the present invention to the art of hearing device manufacturing, the basic considerations which led to the present invention will be discussed with respect to hearing device manufacturing.
- The process of manufacturing hearing devices, as especially hearing aid devices, thereby in-the-ear hearing aid devices, starts customarily by taking a cast or impression of the ear, thereby especially of the ear canal including parts of the outer ear. Traditionally by so-called "detailing process" the cast is roughly cut with respect to the type of device to be manufactured and the size and type of electronic components that will have to be placed in the device by assembling. In subsequent steps the cast is detailed by surface-machining and local or overall waxing allows for smoothening the surface, increasing the shape of the cast and fixing cast inaccuracies. The resulting detailed cast is used for making a negative to be used as a mold, wherein a shell of the device is produced using e.g. UV-curable material. After manufacturing of the shell, additional components as e.g. a vent is machined into the shell, holes are drilled for the receiver etc. and the resulting shell is finalized e.g. by grinding.
- The device is lastly terminated by assembling electronic components into the shell.
- Currently digital techniques become more and more involved in such manufacturing technique. With an eye on shell manufacturing attention is drawn to the US 5 487 012 as well as e.g. to the WO 01/05207, WO 02/03756, US application Nr. 09/670 207 and US appln. Nr. 10/373 906,
WO 02/24128 acc. to US appln. Nr. 09/668 968
WO 02/25993 acc. to US appln. Nr. 09/669 042
WO 02/24129 acc. to US appln. Nr. 09/669 167
WO 02/25994 acc. to US-A-6 484 842
WO 02/25995 acc. to US appln. Nr. 09/669 169
WO 02/24127 acc. to US-A-6 401 859. - The accuracy and adequateness of the addressed manual detailing of casts is mainly a question of experience and individual preference of the skilled artisan performing such detailing for an individual's body area. While high experience allows for more efficient and reliable detailing the process is still prone to errors and to very little reproducibility. In test series several shell makers have been given identical casts and orders for the device to be manufactured and have been asked to produce the corresponding shell. The results have been vastly different both in size and shape, a clear indication of missing reproducibility and personal disagreement on optical shape represented by the cast. Overall such differences in the detailing process contribute to an average industry return rate, in the field of hearing aid devices, of 16 to 21%.
- WO 02/071794 shows a method of producing a shell of a hearing aid, whereby detailing of the shell is performed the way it had been done at a model which was selected as the most similar model amongst a plurality of models.
- It is an object of the present invention to deal with drawbacks of the addressed manufacturing technique. This is achieved by manufacturing a body-worn device, especially electronic device, which is adapted to the shape of an individuals' body area and which comprises the steps of
- preparing a digitized, three-dimensional representation of said area;
- detailing said digitized representation at selected areas;
- producing a shell in dependency of said detailed digitized representation; characterised by
- automatically localizing at least one characteristic feature of said representation, representing a characteristic shape feature at said area of said individual and
- performing said detailing at selected areas oriented at said characteristic feature automatically localized.
- By automatically determining the at least one characteristic feature of the digitized representation, information is provided of such characteristic feature as a basis for producing a shell. Because such determining is automatically performed reproducibility is improved. Finding of such characteristic features at the representation is not anymore subject to operator's expertise and personal preferences. The determined characteristic feature is an accurate basis for deciding how and where the digitized representation is to be detailed, so that again reproducibility of the detailed digitized representation and thus of the resulting shell is significantly improved.
- In a further preferred embodiment detailing comprises at least one of cutting, surface treating, offsetting, fixing, relaxing and increasing at least a part of the digitized representation, whereby such actions are performed digitally.
- In a further preferred embodiment the step of automatically determining the at least one characteristic feature comprises performing such determining by automatically investigating the digitized representation under the constraint of predetermined geometrical rules. Thereby, e.g rules with respect to curvature, surface areas of cross-sections, etc., of the digitized representation are investigated under predetermined criteria so as to find at the digitized representation the location of the respective characteristic feature.
- In a further preferred embodiment the determining step comprises comparing the digitized representation with a digital representation of a standard of the body area. Thereby, both approaches, namely that of performing determining with automatic investigation under the constraint of predetermined geometrical rules and by performing a comparison are combined. For instance it is by performing such comparison that it is easily established whether a digitized representation as provided is accurate enough or not. If e.g. a difference found by such comparing exceeds a predetermined level, there is at least a high degree of likelihood that the digitized representation does not represent individual's body area with an accuracy high enough. Further, if the actually treated digitized representation is close enough to the standard, characteristic features of the standard may be exploited as the respective characteristic features of the digitized representation actually treated and may thus be taken at least as a first approximation of such characteristic features to be automatically determined at the digitized representation.
- In a further embodiment according to the present invention the step of preparing the digitized representation is performed by scanning a cast of the body area. In a further preferred embodiment the step of preparing the digitized representation is performed by three-dimensional scanning of the body area directly.
- As a further embodiment of preparing the digitized representation that step comprises providing such representation of the body area as one which has already been applied for manufacturing a body-worn device and which shall e.g. be improved, taking into account needs of the individual which have changed since the body-worn device had been manufactured. Such changing needs may be based e.g. on individual's growth, aging, etc.
- In a further preferred embodiment of the manufacturing method according to the present invention the step of preparing the digitized representation is performed by scanning a cast of the body area, whereby detailing comprises mechanically detailing the cast in dependency of the detailed digitized representation, thereby producing the shell from said mechanically detailed cast. In this case the detailed digitized representation provides for information how to mechanically detail the cast.
- In a further preferred embodiment mechanical detailing of the cast is performed by digitally controlled treatment or machining.
- If e.g. due to a material selected for manufacturing the shell mould production of the shell is preferred and in a further embodiment it is the mould which is produced in dependency of the detailed digitized representation. In spite of the fact that such mould producing may still be performed manually and based on the information from the detailed digitized representation, in a preferred mode such mould production is performed by a digitally controlled process, which is digitally controlled dependent from the detailed digitized representation.
- Nevertheless, in a most preferred embodiment production of the shell is performed directly by means of a digitally controlled process, whereby such process control comprises controlling by the detailed digitized representation.
- As has been discussed above, in a preferred embodiment the method according to the present invention comprises detailing the digitized representation in dependency of the at least one characteristic feature as determined. Departing therefrom and in a most preferred embodiment the method according to the present invention comprises the step of providing automatically at least one of detailing and of at least one suggestion for performing said detailing. By automatically performing detailing and/or by automatically providing a suggestion how to perform detailing at the digitized representation, reproducibility is again significantly increased and such detailing action becomes significantly less dependent on personal expertise and personal preferences of an operator.
- In a most preferred further embodiment the step of automatically providing at least one of detailing and of at least one suggestion for such detailing is performed on the basis of an expert system and of at least one predetermined target to be achieved. As one and the same digitized representation may be used for construing different devices, it is important at least for some detailing steps to specify, which device shall be manufactured. Let's take a digitized representation of the outer ear and ear canal, such digitized representation may be used for manufacturing an outside-the-ear device OTE, an in-the-ear device ITE or a completely in-the-canal CIC device, which devices obviously necessitate different detailing at the one digitized representation.
- In a preferred further embodiment such expert system is based on pre-established geometric rules and/or on recorded knowledge.
- In context with established or recorded expert knowledge a preferred generic embodiment of the method according to the present invention is to check accuracy of the prepared digitized representation and/or of the automatic determination of at least one characteristic feature by comparing the digitized representation and/or the at least one characteristic feature as determined respectively with a standard digitized representation and/or a standard characteristic feature.
- In a further most preferred embodiment providing automatically at least one of detailing and of at least one suggestion comprises comparing the digitized representation with more than one digitized representations as approved to be accurate so as to find that approved digitized representation which best matches with the digitized representation as actually treated. There is generated the detailing step and/or said suggestion in dependency of the detailed digitized representation of the best matching digitized representation.
- In a further preferred embodiment the expert system is continuously updated in dependency of the detailed digitized representation actually treated, if latter reveals to be approved after producing the shell. Thereby, such approved detailed digitized representation is added to the further approved digitized representations for finding the best match so as to update comparison basis for such finding.
- If the device to be manufactured is a hearing device and the individual's body area comprises the ear canal, the characteristic feature is preferably one of
- end of ear canal
- entrance of the ear canal
- medial axis of the ear canal
- first canal bend
- second canal bend
- left ear canal
- right ear canal
- horizontal line.
- If individual's body area comprises the outer ear area adjacent to the ear canal the characteristic feature is preferably one of
- tragus
- anti-tragus
- inter-tragal notch
- concha
- crus
- helix
- left ear
- right ear
- horizontal line
- In a most preferred embodiment the device manufactured is a hearing device, thereby, further preferred, an in-the-ear hearing device. Nevertheless, such a device may also be an outside-the-ear hearing device.
- In a still further embodiment the addressed devices are hearing aid devices.
- In a still further preferred embodiment of the method according to the present invention, the detailed digitized representation data is stored in the device as manufactured.
- Preferred embodiments of the invention shall now be further described to the skilled artisan making reference to figures.
- These figures show:
- Fig. 1
- in a perspective representation and as an example of an individual's body area, a digitized representation of the outer ear and canal area to define characteristic features;
- Fig. 2
- in a flowchart and functional block/signal-flow diagrammatic representation, a preferred embodiment of a system according to the present invention operated to perform the manufacturing method according to the present invention;
- Fig. 3a
- visualized and as an example a digitized representation of outer ear and of a part of the ear canal;
- Fig. 3b
- departing from the visualized digitized representation as of fig. 3a, a visualized digitized representation after applying an enveloping surface;
- Fig. 4
- a visualized digitized representation with automatically determined characteristic features;
- Fig. 5
- in a representation in analogy to that of fig. 4, additional characteristic features as determined automatically according to the present invention;
- Fig. 6
- still in analogy with the representations of the figs. 4 and 5, location of a still further characteristic feature automatically determined;
- Fig. 7
- departing from a digitized representation as shown in the figs. 4 to 6, visualization of an automatically or operator-interactively detailed target-specific digital representation with the target of manufacturing a CIC, and
- Fig. 8
- schematically and by means of a signal-flow/functional block flowchart diagram, a preferred embodiment of applying a knowledge-based expert system for automatically generating detailing and/or suggestions how to detail a digitized representation of individual's body area of interest.
- In fig. 1 there is shown in a perspective schematic view a
digitized representation 1 from the outer ear and ear canal of an individual as a most preferred example of an individual's body area, whereat a device to be manufactured shall be applied. Characteristic features of such representation are e.g.: - A: canal
- B: second bend
- C: first bend
- D: end of canal
- E: entrance of canal
- F: center line representing medial axis of the ear canal
- G: tragus
- H: anti-tragus
- I: inter-tragal notch
- J: concha
- K: crus
- L: helix
- M: horizontal line, when the cast 10 resides in individual's ear
- In fig. 2 there is shown by means of a simplified flowchart or signal-flow/functional block representation a preferred embodiment of the method and system for manufacturing according to the present invention.
- There is prepared a digitized three-
dimensional representation 1 of the area of interest of individual's body. Thisrepresentation 1, e.g. stored in astoring unit 1U, is in one embodiment prepared by performing a three-dimensional scan 3 by ascanner unit 3U of thearea 5, e.g. of the outer ear andear canal area 5. Alternatively there is made a cast 7 of individual's area of interest, which is then scanned - 9 - by ascanner unit 9U to result in the three-dimensional representation 1. Still alternatively the three-dimensional representation 1 may be provided from an earlier digitized three-dimensional representation of that area, which earlier representation shall be changed, e.g. updated. With an eye on ear canal representation this may become necessary with increasing age of the respective individual. - Visualized (V) on a
computer display 13 as of fig. 2, the digitizedrepresentation 1 of the outer ear and part of the ear canal is shown as an example in fig. 3a resulting by computerized applying an envelope surface, in a representation according to fig. 3b. The digitizedrepresentation 1 is the basis for automatically determining at least one characteristic feature thereat. Such characteristic features are found by applying predeterminedgeometric rules 15 to the digitizedrepresentation 1, thereby investigating thedigitized representation data 1 with the constraint of such rules. For instance and with an eye on the digitized and visualizedrepresentation 1V according to the figs. 3a and 3b and as shown in fig. 3b, an outermost in-plane contour line N is detected in the digitizedrepresentation 1 e.g. as the contour, along which the outer surface of the digitizedrepresentation 1 starts bending inwardly, as an example of a very simplified rule to find contour N. With respect to addressed example of an individual's body area of interest, namely of adigitized representation 1 of outer ear and ear canal, a further characteristic feature of importance is the centre line or medial axis of the ear canal and part of the outer ear. This line is e.g. established by calculating the centre point PCN, i.e. the centre of weight of the plane-surface WN defined by the in-plane contour N. Parallel equidistant slices to WN are computed from the digitizedrepresentation 1 and the respective centre points PCX define concomitantly the centre line F up to reaching the end D of the ear canal representation. This is schematically shown in the visualizeddigitized representation 1V in fig. 4 by centre line F linking centre points PCm, PCn ... of slices n, m .... - Whereas in a first run to find a first approximation of centre-line F the slices, whereat the centre points PCX are calculated, are e.g. established parallel to the plane of surface WN. In a second run the slices are angularly adjusted to be in planes perpendicularly to the first approximation of the centre line F yet found. This results in slightly shifted centre points, which thus define for a second approximation of the centre line F. By such approach and iterative looping a high degree of accuracy for the course of the centre line F in the digitized
representation 1 is achieved. - As a further characteristic feature e.g. first and second bends of the ear canal at the example addressed may or will be automatically determined. To do so, e.g. an analysis of curvature of the centre line F as of fig. 4 is performed in combination with an analysis of the outer surface of the digitized
representation 1 and thereby especially its curvature, especially in direction of the centre line. A simplified rule for determining the first and second ear canal bends is the change of signum of curvature of the centre line F as schematically shown in fig. 5 with respectively directed curvature radii r+ and r-. - As a further feature of interest the aperture plane, whereat the ear canal starts departing from the outer ear is or may be computed by analyzing the sequence of slices perpendicularly and along the centre line F and following the rule that the surface area of such slices in direction from the ear canal towards the outer ear significantly increases there, where the aperture plane E is to be located. As shown in fig. 6 such an analysis following such a rule results in the finding of the entrance of canal plane E.
- Whereas as described up to now the characteristic features are automatically determined by investigating the
digitized representation 1 according to predeterminedgeometric rules 15, a further possibility to find such characteristic features is to compare the digitizedrepresentation 1 with digitizedrepresentation 17 according to fig. 2 of same area of individual's body, which has been approved and established as a standard of a digitized representation of individual's body area. By comparing the prevailingdigitized representation 1 with the establishedstandard representation 17 at least a first approximation of localizing the characteristic features as mentioned above at the digitizedrepresentation 1 under investigation is achieved. In a preferred embodiment both possibilities, namely of determining the characteristic features based onrules 15 as well as based on a comparison with a standard 17 are performed. Thereby latter may especially lead to a conclusion, whether the characteristic features as determined based onrules 15 have a good likelihood to be correct or not and thereby may reveal e.g. an inaccurate establishment of the digitizedrepresentation 1, e.g. due toinaccurate scanning - From the
step 20 according to fig. 2 of determining automatically the characteristic features, or at least one thereof, at the digitizedrepresentation 1 there results such adigitized representation 1 with the recognized or determined characteristic features thereat. This is schematically shown in fig. 2 by the outcome of determiningstep 20 as a digitized representation 1' incorporating determined characteristic features. This "featurized" digitized representation 1' is e.g. visualized as shown in fig. 2 atdisplay 13, leading e.g. to visualized representations according to figs. 3b to 6. Further characteristic features as location of end of canal, tragus, anti-tragus, inter-tragal notch, concha, crus, helix and horizontal line are determined in analogy to the features exemplified above, based on applying geometric rules and/or based on comparison with a standard digitized representation, whereby such geometric rules are based e.g. on surface curvature analysis, centre line analysis, etc. - As was mentioned above the digitized representation 1' does not differ from the digitized
representation 1, but incorporates the localized characteristic features, i.e. additional, automatically found information. - With this digitized representation 1' as an input there is most preferably performed a detailing
step 22. By such detailing the digitizedrepresentation 1 is principally changed. Such change is performed based on the additional information as provided by the determined characteristic features. Some of the detailing actions will be unspecific topredetermined targets 24. As an example one customarily performed detailing action will be to perform a cut at the digitized representation 1' along the contour N according to the figs. 3b to 4. - By predetermining target or
targets 24 it is established e.g. what type of device is to be manufactured. - Detailing the digitized representation 1' may thereby preferably comprise at least one of digitally cutting, surface treating the digitized representation 1', offsetting locally parts thereof, fixing parts thereof having been detected as inaccurate, e.g. by comparing with standard 17 as explained above, relaxing the digitized representation.
- The detailing
step 22 is preferably performed automatically and/or in dependency of automatically provided detailing suggestions to the operator. - Such suggestions - which are automatically followed, if automatic detailing is performed - on how to change the representation 1' are automatically generated on the basis of an
expert system knowledge 28. Based on such suggestions, preferably visualized as shown in fig. 2 at thedisplay 13, the detailing action is nevertheless preferably operator-controlled, OP. The operator may select to fully follow the automatically provided suggestion or may, as an expert, more or less depart from such suggestion. E.g. if thetarget 24 established in the specific example discussed, namely of manufacturing an ear-applicable device, thereby especially a hearing device, is to manufacture a complete in-the-canal hearing device CIC, one target-relatedrule 26 is e.g. based on the fact that such a CIC device is to be placed deeply into the ear canal, reaching clearly beyond the first and up to nearly the second bend C, B, according to the definitions given in context with fig. 1. - Thus, an automatically provided suggestion or an automatically performed action could be to cut the digitized representation 1' just upstream the first bend and just upstream the second bend. Additionally, the characteristic feature "aperture plane" as of E of fig. 6 gives a further basis for the outermost cutting of the digitized representation 1' e.g. as a function of a
further target 24, namely of what kind of a face-plate module is to be provided at the device to be manufactured. - By operator's action OP modules to be incorporated in the device to be manufactured are digitally localized at or within the digitized representation 1' and there is performed an automatic evaluation, where such modules are best located within the digital representation 1', taking e.g. further targets into account, as e.g. predetermined thickness of a shell module for the device. There is performed automatic moving of the modules in and along the digitized representation 1' to automatically provide detailing actions and/or a suggestion or suggestions for geometrically arranging such modules, tailoring the shell module, so that there occurs no module-collision.
- Additional targets are preferably considered, e.g. least visibility of the CIC from outside, taking different viewing angles into consideration.
- The detailing actions are performed at the digitized representation 1', whereby preferably the operator OP may interact with such detailing by possibly performing such detailing, as was outlined above, more or less differently than automatically suggested.
- Thus, following the above example of CIC manufacturing as a
target 24, there will be a cut of the digitized representation according e.g. to the preferred face-plate location, adjacent to the ear canal opening plane E and a cut adjacent the second bend B according to fig. 1. Further preferably digital "machining" of an interior space of the digitized representation 1' is automatically performed or suggested for optimally applying modules as necessitated by the target device. - The
expert system 28 basing on expert knowledge is in a most preferred embodiment construed and operated as explained with the help of fig. 8. In theexpert system 28 multiple digitized representations are provided, which after detailing have formerly resulted in satisfying shell and device manufacturing as approved by the involved individual and by the expert and with respect to devices applicable to the same body area as currently involved. - These formerly approved digitized representations 1da, 1db etc. are compared in a comparing
step 30 with the actually treateddigitized representation 1 or 1' and there is established by such comparison, which of the approveddigitized representations 1d best matches with the actually treateddigitized representation 1 or 1'. Once and as a result of thiscomparison 30 the best matching approved digitized representation is found, this best matching representation is addressed by an output of the comparingstep 30 and the detailing data of detailing the respective approved digitized representation is output from theexpert system 28 as suggestions for how the actually treated digitized representation 1' of fig. 2 should or could be detailed in detailing 22. If detailing is performed automatically, then such suggestion directly controls the detailing action. Thereby, and as shown in fig. 8 the target information fromtarget 24 is additionally input toexpert system 28, as detailing may be completely different dependent whether e.g. a CIC is to be manufactured or an outside-the-ear hearing device OTE departing from the same digitized representation of outer ear and ear canal. - Looking back on fig. 2, once detailing at
step 22 has been performed and, as will further be addressed, dependent on the resulting detaileddigitized representation 1d a shell and a device has been manufactured, which satisfy the respective individual as well as the expert, the respectivedigitized representation 1 or 1' with the detailing information according to 1d and preferably thetarget 24 information is input to theexpert system 28 to update and improve its database. - Preferably both approaches, namely the approach of detailing based on rules, as outlined above, as well as detailing on the basis of "best match" are combined, whereby detailing suggestions based on the "best match" approach are preferably taken as first approximation for detailing, which approximation is then improved by considering the
rules 26. - The expert system based on rules and
knowledge expert systems - According to fig. 2 the detailing
step 22 results in a detaileddigitized representation 1d. Thereat provision of modules for the device to be manufactured, namely the shell, possibly a face-plate, electronic modules, etc. has been considered. In fig. 7 there is shown an example of a visualized detailed digitized representation 1dV combined with the target-specifically added modules as a face-plate 30, ashell 31, anelectronic module 32. - As further shown in fig. 2 in a most preferred embodiment the detailed
digitized representation 1d is directly applied to a digitally controlled process for performing the shell-manufacturing step 36. Nevertheless, the detaileddigitized representation 1d may also be applied for digitally controlling, in an overworkingstep 38, cast machining if there has been performedscanning 9 of a cast 7 to retrieve the digitizedrepresentation 1 and thus a cast 7 has already been used. After mechanically detailing a cast instep 38, in a mould-forming step 40 a mould is formed and therefrom, in shell-formingstep 36, the shell. In a still further embodiment the detaileddigitized representation 1d is applied for controlling digitally-controlled processing of amould 40, if e.g. a material is to be used for manufacturing the shell instep 36, which is rather suited for a moulding technique than for a digitally controlled shaping technique. - Still another possibility is to manually overwork, in
step 38, the cast or even, instep 40, the mould dependent from the information as gained from the detaileddigitized representation 1d, e.g. via its visualization atmonitor 13. - After performing shell-manufacturing according to one aspect of the present invention, under the further aspect in an assembling
step 38 the device is assembled with the already produced shell-module fromstep 36. - Especially the
step 20 of determining the characteristic features on the basis ofpre-established rules 15 and/or a standard 17, thestep 22 of automatic and preferably interactive detailing 22 in dependency ofpredetermined targets 24 and on the basis of a rule- and/or knowledge-basedexpert system - The detailed
digitized representation 1d is further preferably stored in a respective storing unit (not shown) at the device as assembled. This leads to the possibility that the individual carries all the information for manufacturing especially his device's shell with him. This information may be easily retrieved and irrespective, where the individual resides and may be transmitted e.g. via internet to a facility with shell-manufacturing installations so as to easily order a replacement shell. - Even if the individual is not completely satisfied by the momentarily worn device, he may, additionally to the above mentioned information, transmit his respective needs to the shell-manufacturing facility whereat, according to the
option 11 of fig. 2, the actually prevailing digitized representation may be subjected to additional checks and possibly redetailing according to the present invention.
Claims (26)
- A method for manufacturing a body-worn device, adapted to the shape of an individual's body area comprising:• preparing (1) a digitized, three-dimensional representation of said area;• detailing (22) said digitized representation at selected areas;• producing a shell in dependency of said detailed digitized representation;characterised by• automatically localizing (20) at least one characteristic feature of said representation (1), representing a characteristic shape feature at said area of said individual and• performing said detailing (22) at selected areas oriented at said characteristic feature automatically localized (20) .
- The method of claim 1, wherein said detailing comprises at least one of digitally cutting, surface treating, offsetting, fixing and relaxing a part of said digitized representation.
- The method of claim 1, further comprising performing said localizing by automatically investigating said digitized representation under the constraint of predetermined geometrical rules.
- The method of claim 1, further comprising performing said localizing by comparing said digitized representation with a digital representation of a standard of said body area.
- The method of claim 1, further comprising the step of preparing said digitized representation by scanning a cast of said body area.
- The method of claim 1, further comprising the step of preparing said digitized representation by scanning said body area.
- The method of claim 1, wherein preparing said digitized representation comprises providing a digitized representation of said area which has already been applied for manufacturing a body-worn device.
- The method of claim 1, further comprising the step of preparing said digitized representation by scanning a cast of said body area, and mechanically detailing said cast in dependency of said detailed digitized representation, thereby producing said shell from said detailed cast.
- The method of claim 8, further comprising performing detailing of said cast by a digitally controlled treatment.
- The method of claim 1, producing said shell comprising producing said shell by a mould and producing said mould in dependency of said detailed digitized representation.
- The method of claim 10, further comprising producing said mould by a digitally controlled process.
- The method of claim 1, further comprising producing said shell by means of a digitally controlled process, controlling said process comprising controlling said process by said detailed digitized representation.
- The method of claim 1, further comprising performing automatically at least one of detailing and of providing at least one suggestion for said detailing.
- The method of claim 13, wherein said step of providing automatically at least one of detailing and of at least one suggestion is performed on the basis of an expert system and at least one predetermined target to be achieved.
- The method of claim 14, wherein said expert system is based on pre-established geometric rules and/or on recorded knowledge.
- The method of claim 1, further comprising checking accuracy of said prepared digitized representation and/or of said automatic determining by comparison of said digitized representation and/or at lest one characteristic feature respectively with a standard digitized representation and/or standard characteristic feature.
- The method of claim 13, wherein providing automatically at least one of detailing and of at least one suggestion comprises comparing said digitized representation with more than one digitized representation approved to be accurate, to find that approved digitized representation which best matches said digitized representation and generating said detailing and/or suggestion in dependency of said best matching digitized representation.
- The method of claim 14 comprising updating said expert system in dependency of said detailed digitized representation, if latter is approved after producing said shell at the earliest.
- The method of claim 18, further comprising adding said digitized representation to said approved representations, if it is approved after producing said shell at the earliest.
- The method of claim 1, said device being a hearing device, said individual's body area comprising an ear canal, said at least one characteristic feature being one of:- end of ear canal;- entrance of the ear canal;- medial axis of the ear canal;- first canal bend;- second canal bend;- left ear canal;- right ear canal;- horizontal line.
- The method of claim 1, said individual's body area comprising individual's outer ear adjacent the ear canal, said at least one characteristic feature being one of:- tragus;- anti-tragus;- inter-tragal notch;- concha;- crus;- helix;- left ear;- right ear;- horizontal line.
- The method of claim 1, wherein said device is a hearing device.
- The method of claim 1, wherein said device is an in-the-ear hearing device.
- The method of claim 1, wherein said device is an outside-the-ear hearing device.
- The method of claim 1, wherein said device is a hearing aid device.
- The method of claim 1, further comprising storing data for said producing said shell at said device.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP03007673A EP1345470B1 (en) | 2003-04-03 | 2003-04-03 | Method for manufacturing a body-worn electronic device adapted to the shape of an individual's body area |
DK03007673T DK1345470T3 (en) | 2003-04-03 | 2003-04-03 | Method of manufacturing a body-worn electronic device that can be adapted to the body surface of an individual |
DE60309363T DE60309363T2 (en) | 2003-04-03 | 2003-04-03 | A method of manufacturing a body-worn electronic device adapted to the shape of a body part of an individual |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP03007673A EP1345470B1 (en) | 2003-04-03 | 2003-04-03 | Method for manufacturing a body-worn electronic device adapted to the shape of an individual's body area |
Publications (3)
Publication Number | Publication Date |
---|---|
EP1345470A2 EP1345470A2 (en) | 2003-09-17 |
EP1345470A3 EP1345470A3 (en) | 2003-10-01 |
EP1345470B1 true EP1345470B1 (en) | 2006-11-02 |
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Application Number | Title | Priority Date | Filing Date |
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EP03007673A Expired - Lifetime EP1345470B1 (en) | 2003-04-03 | 2003-04-03 | Method for manufacturing a body-worn electronic device adapted to the shape of an individual's body area |
Country Status (3)
Country | Link |
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EP (1) | EP1345470B1 (en) |
DE (1) | DE60309363T2 (en) |
DK (1) | DK1345470T3 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8616214B2 (en) | 2011-04-06 | 2013-12-31 | Kimberly-Clark Worldwide, Inc. | Earplug having a resilient core structure |
EP3879852A1 (en) * | 2020-03-11 | 2021-09-15 | Sonova AG | Automatic ear impression classification |
Families Citing this family (17)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7308328B2 (en) * | 2003-05-15 | 2007-12-11 | Siemens Medical Solutions Usa, Inc. | Synchronized processing of ear shells for hearing aids |
US7606381B2 (en) | 2004-12-23 | 2009-10-20 | Phonak Ag | Method for manufacturing an ear device having a retention element |
EP1675430A1 (en) * | 2004-12-23 | 2006-06-28 | Phonak Ag | Method for manufacturing an ear device having a retention element |
US7447556B2 (en) | 2006-02-03 | 2008-11-04 | Siemens Audiologische Technik Gmbh | System comprising an automated tool and appertaining method for hearing aid design |
US7949145B2 (en) | 2005-04-13 | 2011-05-24 | Phonak Ag | Method of manufacturing an individually shaped hearing device or hearing aid |
EP1558058B1 (en) * | 2005-04-13 | 2014-06-11 | Phonak Ag | Method of manufacturing and individually shaped hearing device or hearing aid |
EP1952668B1 (en) | 2005-11-25 | 2020-08-26 | Sonova AG | Method for fitting a hearing device |
US8150542B2 (en) | 2006-06-14 | 2012-04-03 | Phonak Ag | Positioning and orienting a unit of a hearing device relative to individual's head |
EP2027752B1 (en) * | 2006-06-14 | 2011-10-05 | Phonak AG | Positioning and orienting a unit of a hearing device relative to individual's head |
US7680634B2 (en) | 2006-10-03 | 2010-03-16 | Siemens Hearing Instruments, Inc. | Ellipsoidal line cut system and method for hearing aid shell design |
US7605812B2 (en) | 2006-12-19 | 2009-10-20 | Siemens Aktiengesellschaft | Intelligent modeling method and system for earmold shell and hearing aid design |
US8068653B2 (en) | 2007-12-07 | 2011-11-29 | Siemens Audiologische Technik Gmbh | Method and system for second bend plane detection of ear canal surfaces |
CN102655996B (en) * | 2009-10-16 | 2015-04-15 | 3形状股份有限公司 | Individually tailored soft components |
WO2013149645A1 (en) * | 2012-04-02 | 2013-10-10 | Phonak Ag | Method for estimating the shape of an individual ear |
CN106941653A (en) * | 2017-04-03 | 2017-07-11 | 浙江诺尔康神经电子科技股份有限公司 | Artificial cochlea's intelligent predicting system and method |
WO2020102722A1 (en) | 2018-11-16 | 2020-05-22 | Starkey Laboratories, Inc. | Ear-wearable device shell modeling |
EP4404589A1 (en) | 2023-01-18 | 2024-07-24 | Sonova AG | Housing for an earpiece and method for producing a housing for an earpiece |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2002071794A1 (en) * | 2001-03-02 | 2002-09-12 | 3Shape Aps | Method for modelling customised earpieces |
Family Cites Families (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2525103B1 (en) * | 1982-04-14 | 1985-09-27 | Duret Francois | IMPRESSION TAKING DEVICE BY OPTICAL MEANS, PARTICULARLY FOR THE AUTOMATIC PRODUCTION OF PROSTHESES |
US5487012A (en) * | 1990-12-21 | 1996-01-23 | Topholm & Westermann Aps | Method of preparing an otoplasty or adaptive earpiece individually matched to the shape of an auditory canal |
US6401859B1 (en) * | 2000-09-25 | 2002-06-11 | Phonak Ag | Custom-molded ear-plug, and process for producing a custom-molded ear-plug device |
EP1246506A1 (en) * | 2001-03-26 | 2002-10-02 | Widex A/S | A CAD/CAM system for designing a hearing aid |
-
2003
- 2003-04-03 EP EP03007673A patent/EP1345470B1/en not_active Expired - Lifetime
- 2003-04-03 DK DK03007673T patent/DK1345470T3/en active
- 2003-04-03 DE DE60309363T patent/DE60309363T2/en not_active Expired - Lifetime
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2002071794A1 (en) * | 2001-03-02 | 2002-09-12 | 3Shape Aps | Method for modelling customised earpieces |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8616214B2 (en) | 2011-04-06 | 2013-12-31 | Kimberly-Clark Worldwide, Inc. | Earplug having a resilient core structure |
EP3879852A1 (en) * | 2020-03-11 | 2021-09-15 | Sonova AG | Automatic ear impression classification |
Also Published As
Publication number | Publication date |
---|---|
DE60309363T2 (en) | 2007-09-20 |
DE60309363D1 (en) | 2006-12-14 |
EP1345470A3 (en) | 2003-10-01 |
EP1345470A2 (en) | 2003-09-17 |
DK1345470T3 (en) | 2007-03-12 |
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