CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] This application is related to and claims priority from United States Provisional Application. 62/560,320 entitled "APPARATUS, SYSTEM AND METHOD FOR BODY TYPE SPECIFIC GOLF", by Michael M. Dagenais, filed 19 September 2017.

TECHNICAL FIELD

[0002] This application relates to golf in general, and to an apparatus, system and method for body type specific golf, in particular. SUMMARY

[0003] According to one aspect of the present techniques, there is provided an apparatus, system and method for body type specific golf.

[0004] The apparatus is for providing guidance information regarding the stance or swing of golf player's as a function of each user's body type information. The apparatus includes:(a) a plurality of feet indicia, for indicating pre-determined positions on the ground to place the user's feet relative to one another; (b) a plurality of ball lines, for indicating pre-determined positions on the ground relative to the feet indicia, to place a golf ball relative to the ball lines; and (c) a plurality of peg indicia, for indicating pre-determined positions on the ground relative to the feet indicia, for guiding the movements of the user's body, or the user's golf club, relative to the peg indicia. The predetermined positions on the ground of the plurality of feet indicia, plurality of ball lines, and plurality of peg indicia account for a plurality of body types of golf player's, such that, given the body type information of the user, body type specific information referencing a select body type specific feet indicia, a select body type specific ball line, or a select body type specific peg indicia is provided, the body type specific information including body type specific guidance to guide the stance or swing of the user as a function of the user's body type information.

[0005] The body type specific information management system includes: (a) a body type criteria determination component to determine body type criteria information; (b) a body type determination component to determine body type information using the body type criteria information; and (c) a body type specific information selection component to select from a plurality of body type specific information using the body type information. [0006] The method of body type specific information management, includes the acts of: (a) determining body type criteria information; (b) determining body type information using the body type criteria information; and (c) selecting from a plurality of body type specific information using the body type information.

[0007] Aspects and features of the present techniques will become apparent to those ordinarily skilled in the art upon review of the following description of specific embodiments of an apparatus, system and method for body type specific golf in conjunction with the accompanying drawing figures.

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] Embodiments of the present techniques will now be described, by way of example only, with reference to the accompanying drawing figures, wherein:

FIG. 1 is a flowchart of an exemplary body type specific information management method;

FIG. 2 is a block diagram of an exemplary body type specific information management system;

FIG. 3 is a flowchart of exemplary steps to determine exemplary body type criteria and exemplary body type;

FIG. 4 is a flowchart of exemplary steps to determine exemplary body information;

FIG. 5 is an illustration of a model of a person showing exemplary body information;

FIG. 6 is an illustration of a model of a person showing exemplary shoulder body information;

FIG. 7 is a flowchart of exemplary steps to determine arm criteria using arm body information;

FIG. 8 is an illustration of a flowchart of exemplary steps to determine the first criteria of FIG. 7 using the exemplary arm body information of FIG. 5;

FIG.9 is an illustration of a flowchart of exemplary steps to determine shoulder slant criteria using shoulder body information;

FIG. 10 is an illustration of a flowchart of exemplary steps to determine the second criteria of FIG. 9 using the exemplary shoulder body information of FIG. 5;

FIG. 11 is an illustration of a flowchart of exemplary steps to determine shoulder projection criteria using shoulder body information;

FIG. 12 is an illustration of a flowchart of exemplary steps to determine the third criteria of FIG. 11 using the exemplary shoulder body information of FIG. 6;

FIG. 13 is an illustration of a flowchart of exemplary steps to determine hip width criteria using hip body information;

FIG. 14 is an illustration of a flowchart of exemplary steps to determine the fourth criteria of FIG. 13 using the exemplary hip body information of FIG. 5; FIG. 15 is an illustration of a flowchart of exemplary steps to determine shoulder width criteria using shoulder body information;

FIG. 16 is an illustration of exemplary steps to determine the fifth criteria of FIG. 16 using the exemplary shoulder body information of FIG. 5;

FIG. 17 is an illustration of an exemplary beginning third of an exemplary body type specific information lookup table;

FIG. 18 is an illustration of an exemplary middle third of an exemplary body type specific information lookup table;

FIG. 19 is an illustration of an exemplary ending third of an exemplary body type specific information lookup table;

FIG. 20 is an exemplary information record structure including body type specific information structure; FIG. 21 is an exemplary information record data including body type specific information data;

FIG. 22 is an illustration an exemplary user interface for determining exemplary body information without the need for photographs;

FIG. 23 is an illustration an exemplary user interface for determining exemplary body information using photographs;

FIG. 24 is an illustration of an exemplary front facing picture of a person from which the exemplary body information of FIGs. 5, 7-10, and 13-16 can be determined;

FIG. 25 is an illustration of an exemplary side stance picture of a person from which the exemplary body information of FIGs. 6, and 11-12 can be determined;

FIG. 26 illustrates the result of the use of the body type determination achieved using either user interaction or automation;

FIG. 27 is an illustration of a right hand side of an exemplary training carpet component of an apparatus to be used with body type specific information;

FIG. 28 is an illustration of a left hand side of an exemplary training carpet component of an apparatus to be used with body type specific information;

FIG. 29 is an illustration of an exemplary long peg component of an apparatus to be used with the body type specific information; and

FIGs. 31-40 are illustrations of exemplary training guidance body type specific information provided using the exemplary method of FIG. 1, the exemplary system of FIG. 2, and the components of the apparatus of FIGs. 27- 30.

[0009] Like reference numerals are used in different figures to denote similar elements. DETAILED DESCRIPTION OF THE DRAWINGS

[0010] Referring to the drawings, FIG. 1 is a flowchart of an exemplary body type specific information management method. The flowchart includes an authenticate user step 10, a new user step 20, a determine body info step 30, a store body info in profile step 40, a determine/store body type step 50, a lookup body type specific info step 60 and a provide body type specific info step 70. The method uses user profiles component 80 to store user profile data 90 and body type specific info component 90 to store body type specific information 95. In alternative embodiments, the components, steps, and information operate using various configurations. Operationally the method will first authenticate user 10, and it is determined if the user is a new user 20. If the user is new, the step to determine body info 30 ensues, followed by the step to store body info in profile 40, and the step to determine/store body type 50. Regardless of the outcome of the new user step 20, the step to lookup body type specific info 60 occurs next, followed by the step to provide body type specific info 70.

[0011] FIG. 2 is a block diagram of an exemplary body type specific information management system. The block diagram includes a body type criteria determination component 100, a body type determination component 110, and a body type specific information selection component 120. Operationally, body information 105 such as the e.g. information illustrated, is utilised by the body type criteria determination component 100 to determine criteria 1-5 such as the e.g. body type criteria 107 illustrated: AL = (Arms Length = Average Arms) = AA, SS = (Shoulder Slant) = SS02, SW = (Shoulder Width = Wide Shoulders) = WS, HW = (Hip Width = Narrow Hips) = NH, SP = (Shoulder Projection) = SP24. The body type criteria 1-5 are then used in turn by the body type determination component 110 to determine a body type, such as the e.g. body type 115 illustrated. The body type is then used by the body type specific information selection component 120 to select from potentially available information such as e.g. plurality of guidance information 125 to provide body type specific information such as e.g. guidance information 127 specifically applicable to the determined e.g. body type.

[0012] FIG. 3 is a flowchart of exemplary steps to determine exemplary body type criteria and exemplary body type. The flowchart includes and goes through a determine arms length criteria AL step 200, determine shoulder slant criteria SS step 210, a determine shoulder projection criteria SP step 220, a determine hip width criteria HW step 230, a determine shoulder width criteria SW step 240, a determine body type step 250, and an access body type specific information step 260. As illustrated the exemplary body type criteria 245 includes generally AL, SS, SP, HW and SW and as illustrated in one example 247 has values of SA, SS02, SP24, NH and WS selected from ranges of values (SA,AA,LA), (SS02,SS24), (SP02,SP24), (NH,AH,WH), (WS,AS,NS) resulting in an e.g. 3x2x2x3x3 = 108 e.g. possible body types e.g. in a lookup table 252. As illustrated the exemplary body type is shown as a number 255 and as illustrated in one example has value 257 of 12. As illustrated the exemplary information accessed 260 e.g. using lookup table 262 and includes information 265 and in one example 267 has a value of INFO 12.

[0013] FIG. 4 is a flowchart of exemplary steps to determine exemplary body information. The flowchart includes and goes through a determine height H step 300, determine next to shoulder dist. D(N,S) step 310, a determine waist size W step 320, a determine elbow to belt distance D(E,B) step 330, a determine wrist to belt distance D(W,B) step 340, a determine hip width HW step 350, a determine shoulder width SW step 360, and a determine shoulder projection distance SP step 370. As illustrated the flowchart provides body 375 info that includes the determined H, D(N,S), W, D(E,B), D(W,B), HW, SW and SP = D(T,F) and as illustrated e.g. values in inches 377 for those body info.

[0014] FIG. 5 is an illustration of a model of a person showing exemplary body information. As shown in the model, three points are used to represent two measurements. The position of the belt line, which is substantially coincidental with a line passing through the iliac crest and the umbilicus of the model, is used as a reference for measuring distance. The position of elbow relative to the belt line is used to measure D(E,B). The position of the wrist relative to the belt line is used to measure D(W,B). The position of the shoulder relative to the neck line is used to measure D(N,S). The waist size W is illustrated and substantially corresponds to the waist size of pants that would fit the model. The width of the hips W(H) of the model is measured as is the width of the shoulders W(S) of the model.

[0015] FIG. 6 is an illustration of a model of a person showing exemplary shoulder body information. The top of the back is used as a reference for measuring distance. The position of the front of the shoulder relative to the top of the back is used to measure D(T,F). The position of the neck line, which is substantially at the juncture of the neck and the top of the clavicle, is used as a reference for measuring distance.

[0016] FIG. 7 is a flowchart of exemplary steps to determine arm criteria using arm body information. The flowchart includes a short arms step 300 and a long arms step 310 as well as an arm criteria = SA step 320, an arm criteria = AA step 330 and an arm criteria = LA step 340. Body info 105 is used to determine if the body info includes short arms 300. If so determined, the arm criteria is set to SA 320. If not so determined, the long arms step 310 ensues to determine if the Body info 105 includes long arms. If so determined, arm criteria is set to LA 340. If Body info 105 does not include short arms or long arms then the arm criteria is set to AA 330.

[0017] FIG. 8 is an illustration of a flowchart of exemplary steps to determine the first criteria of FIG. 7 using the exemplary arm body information of FIG. 5. The steps include determining if D(E,B) > D(W,B) 350, determining if the difference between D(E,B) and D(W,B) is greater than a threshold Tl 360 such as e.g. Tl = ½ in, determining if the difference between D(W,B) and D(E,B) is greater than a threshold Tl 370, setting criterial = SA 380, setting critera2 = AA 390, and setting criteria3 = LA 395. Operationally body information 105 such as e.g. D(E,B) and D(W,B) information illustrated, is used by the D(E,B) > D(W,B) step 350. If it is determined that D(E,B) is greater than D(W,B), then the difference between D(E,B) and D(W,B) is compared to threshold Tl at the D(E,B) - D(W,B) > Tl 370 step. If so determined, then the criterial = SA step 380 ensues. This is what would happen if the steps are used with the e.g. body info 105 illustrated. If however D(E,B) is not greater than D(W,B), then if the difference between D(W,B) and D(E,B) is greater than Tl 360, then the criterial = LA step 395 ensues. If the absolute difference between D(W,B) and D(E,B) is not greater that Tl, then the criterial = AA step ensues 390.

[0018] FIG.9 is an illustration of a flowchart of exemplary steps to determine shoulder slant criteria using shoulder body information. The flowchart includes a small shoulder slant determination step 400, a shoulder slant criteria = sss mall step 410 and a shoulder slant criteria = ss large step 420. Body info is used by the small shoulder slant determination step to determine if the body info includes small shoulder slant. If so determined the shoulder slant criteria = ss small step occurs, alternatively the shoulder slant critera = ss large step occurs.

[0019] FIG. 10 is an illustration of a flowchart of exemplary steps to determine the second criteria of FIG. 9 using the exemplary shoulder body information of FIG. 5. The flowchart includes a D(N,S) > T2 determination step 430, a criteria2 = SS02 step 440, and a criteria2 = SS24 step 440. Operationally, Body info 105 such as e.g. D(N,S) = 2.755 in the D(N,S) > T2 step and compared to a threshold T2 such as e.g. 2 in. If it is determined that D(N,S) is greater than T2, then the criteria2 = SS02 step occurs, as is the case with the e.g.. Alternatively, the criteria2=SS24 step ensues.

[0020] FIG. 11 is an illustration of a flowchart of exemplary steps to determine shoulder projection criteria using shoulder body information. The flowchart includes a small shoulder projection determination step 460, a shoulder projection = small 470 and a shoulder projection = large step 480. Operationally, Body info 105 is used by the small shoulder projection determination step to determine if Body info includes small shoulder projection. If so determined, the shoulder projection = small step ensures, alternatively the shoulder projection = large step ensues.

[0021] FIG. 12 is an illustration of a flowchart of exemplary steps to determine the third criteria of FIG. 11 using the exemplary shoulder body information of FIG. 6. The flowchart includes a D(T,F) > T3 determination step 490, a criteria3 = SP02 step 500 and a criteria3 = SP24 step 510. Operationally, body info 105 such as e.g. D(T,F) = 6.328, is compared to a threshold T3 such as e.g. 2in. If it is determined that D(T,F) is greater than the threshold T3, then step croteria3 = SP24 ensues, as with the e.g. Alternatively step criteria3 = SP02 ensues.

[0022] FIG. 13 is an illustration of a flowchart of exemplary steps to determine hip width criteria using hip body information. The flowchart includes a narrow hips determination step 520, a wide hips determination step 530, a hips criteria = NH step 540, a hips criteria = AH step 550, and a hips criteria = WH step 560. Body info 105 is used by the narrow hips determination step and if so determined the hips criteria = NH step ensues. Alternatively, the wide hips determination step ensues. If so determined, then hips criteria = WH step ensues. Alternatively, the hips criteria = AH step ensues.

[0023] FIG. 14 is an illustration of a flowchart of exemplary steps to determine the fourth criteria of FIG. 13 using the exemplary hip body information of FIG. 5. The flowchart includes a W < T4N determination step 570, a W > T4W determination step 580, a criteria 4 = NH step 590, a criteria4 = AH step 600, and a criteria4 = WH step 610. Operationally, Body info 105 such as e.g. W = 30 in is compared to threshold T4N e.g. 34 in at the W < T4N determination step. If so determined, the criteria4 = NH step ensues. Alternatively, the W > T4W determination step ensues and if so determined the criteria4 = WH step ensues, or alternatively the criteria4 = AH step ensues.

[0024] FIG. 15 is an illustration of a flowchart of exemplary steps to determine shoulder width criteria using shoulder body information. The flowchart includes a narrow shoulders determination step 610, a wide shoulders determination step 620, a shoulder criteria = NS step 630, a shoulder criteria = AS step 640, and a shoulder criteria = WS step 650. Operationally body info 105 is used by the narrow shoulder determination step, and if so determined the shoulder criteria = NS step ensues. Alternatively, the wide shoulders determination step ensues. If so determined, the shoulder criteria = WS step ensues. Alternatively, the shoulder criteria = AS step ensues.

[0025] FIG. 16 is an illustration of exemplary steps to determine the fifth criteria of FIG. 16 using the exemplary shoulder body information of FIG. 5. The flowchart includes a W(S) < W(H) determination step 660, a W(S) - W(H) > T5 determination step 670, a criteria5 = NS step 680, a criteria5 = AS step 690 and a criteria5 = WS step 700. Body info 105 such as e.g. W(S) = 17.66 and W(H) = 12.98 is used by the W(S) > W(H) determination step, and if so determined the criteria5 = NS step ensues. Alternatively, as in the e.g., step W(S) - W(H) > T5 step ensues. If the difference between W(S) and W(H) is greater than threshold T5,such as is the case if e.g. T5 is 1 in, then step criteria5 = WS ensues. Alternatively, step criteria5 = AS ensues.

[0026] FIG. 17 is an illustration of an exemplary beginning third of an exemplary body type specific information lookup table. As illustrated, the lookup table 252A maps a range of values of criteria 1-5, each corresponding to body type 115 number 1-36, to information 95 1-36. The example values for criteria 1-5 correspond to body type 12 and information 12.

[0027] FIG. 18 is an illustration of an exemplary middle third of an exemplary body type specific information lookup table. As illustrated, the lookup table 252B maps a range of values of criteria 1-5, each corresponding to body type 115 number 37-72, to information 95 37-72.

[0028] FIG. 19 is an illustration of an exemplary ending third of an exemplary body type specific information lookup table. As illustrated, the lookup table 252C maps a range of values of criteria 1-5, each corresponding to body type 115 number 73-108, to information 95 73-108. [0029] FIG. 20 is an exemplary information record structure including body type specific information structure. As illustrated for a given set of criteria 1-5, an info # 125 includes basic setup guidance, basics guidance, takeaway/backswing Impact guidance, finish guidance, and body type specific guidance. As illustrated this includes guidance G1-G24. It is anticipated that the specific number and kind of guidance can be varied and any such variation is contemplated to be within the scope of the present application. As illustrated, reference to N videos, as well as an expected aspect of the body type are also included in the information record structure.

[0030] FIG. 21 is an exemplary information record data including body type specific information data. In this example, the guidance G1-G24, the expectation, and N videos are all specific to the body type #12 127 used in the e.g. of the flowcharts and user interface.

[0031] FIG. 22 is an illustration an exemplary user interface for determining exemplary body information without the need for photographs. In this interface 800, all of the measurements required to determine body type are requested from the user. This could be used, for example, by a user that requests custom measurement at a service provider such as a golf store or golf club, or by using a measuring tape, or by using an electronic device to determine the required information. Additional optional information is collected, such as foot size.

[0032] FIG. 23 is an illustration an exemplary user interface for determining exemplary body information using photographs. In this interface 900, not all of the measurements required to determine body type are requested from the user. Instead, some or all of the measurements are obtained from photographs provided by the user. This could be used, for example, by a user that requests custom measurement by taking a photograph using a mobile device or camera and uploading the files over the internet. Additional optional information is collected, such as foot size. Operationally, the digital images provided by the user can be processed either automatically or with user interaction. An overview of the steps the user must take, e.g. two examples of photos that are required to be taken by the user in order to obtain the measurements using the interface, are presented to the user. The user is instructed to take the two photos. The user is instructed to upload the first forward facing photo. The user is asked to confirm the picture or to choose a new picture, such as for example, if the picture is rotated 90 degrees, or is the wrong picture. In some embodiments, the user is instructed to place dots on the top of the head in the picture, and the bottom of the foot. Two photo instructions can illustrate what is required. The user can be enabled to place a dot on the head by clicking or touching the top of the head in the picture. The user can be enabled to place a dot on the feet by clicking or touching near the bottom of the feet in the picture, such as for example where the optional golf ball was placed while taking the picture. The user can be prompted to enter their height. This value, along with the two points, establishes a scale for determining distances using points on the pictures. The user can be shown the body information collected so far, and is asked to either move to the next step, or to reset and select the points again to establish the reference scale. The shoulder slant is determined in an analogous way by placing points at the base of the neck and top of the shoulder. The belt line and waist size are determined in an analogous way. The length of the arms are determined in an analogous way. The hip width is determined in an analogous way. The width of the shoulder is determined in an analogous way. The user is instructed to upload the second profile photo. The shoulder projection is determined in an analogous way. In an automatic processing, .the required information is extracted directly from the images by using, for example using machine vision.

[0033] FIG. 24 is an illustration of an exemplary front facing picture of a person from which the exemplary body information of FIGs. 5, 7-10, and 13-16 can be determined. An optional golf ball is placed between the ball of the feet of the person in order to provide a reference point for the ground and/or a scale factor. The front facing picture 910 can be analog or digital.

[0034] FIG. 25 is an illustration of an exemplary side stance picture of a person from which the exemplary body information of FIGs. 6, and 11-12 can be determined. An optional golf club is held by the person in order to facilitate the measurements in a normal starting position for golf. The side or golf stance picture 920 can be analog or digital.

[0035] FIG. 26 illustrates the result of the use of the body type determination achieved using either user interaction or automation. The body information is illustrated in both machine usable 105M and human usable 105H forms. Once body information is determined, body type specific information is also derived or obtained in machine usable and human usable forms.

[0036] FIG. 27 is an illustration of a right hand side of an exemplary training carpet component of an apparatus to be used with body type specific information. As illustrated, the carpet includes 17 circular areas, each of which is approximately 3 inches in diameter, and in which are indicated respective indicia 1-17. Two rectangular areas parallel to the edges of the carpet are provided so a user of the carpet knows where to place their left and right feet. Each rectangular area has indicia at the top and bottom so as to facilitate the placement of the foot at the toe end and heel end respectively. As illustrated the left foot rectangular 940 A are has indicia A-G and the right foot rectangular area 940B has indicia H-N. Four driver ball lines and three iron ball lines are illustrated perpendicularly to the top edge and nearer to the left edge so that a user knows where to place the golf ball. An indication that the carpet is for a right handed golfer is shown at the bottom left corner. Optionally, although not shown, the carpet is branded so as to direct the user to the appropriate system to obtain guidance on using the carpet for golf training. The guidance refers to the indicia on the carpet to provide guidance that is tailored to the specific body type of the golfer undergoing golf training.

[0037] FIG. 28 is an illustration of a left hand side of an exemplary training carpet component of an apparatus to be used with body type specific information. The carpet is substantially a mirror image of FIG.27, except that the left foot rectangular area 940C has indicia H-N and the right foot rectangular area 940D has indicia A-G. [0038] In an alternative embodiment, a training carpet with only one side is used, either for a left handed golfer, or a right handed golfer. In a further alternative embodiment, augmented reality is used to present a virtual overlay of the carpet to the user, such as for example at a golf course or driving range.

[0039] FIG. 29 is an illustration of an exemplary long peg component of an apparatus to be used with the body type specific information. The long peg includes a base 950 and a long stem 960L. As illustrated, the base of the long peg is 3 in, so as to coincide with the diameter of the circular areas of the carpets of FIGs. 64 and 65, such as for example a hockey puck. The long peg includes a stem which is inserted into a hole in the base such that the height of the peg is as illustrated 14 in. In alternative embodiments, bases of different diameters and pegs of different heights can be used.

[0040] FIG. 30 is an illustration of an exemplary short peg component of an apparatus to be used with the body type specific information. The short peg includes a base 950 and a short stem 960S. It is substantially identical to the long peg of FIG. 29, except that the length of the stem is shortened such that the short peg is 6 in high. In alternative embodiments, bases of different diameters and stems of different heights than the examples shown can be used.

[0041] FIGs. 31-40 are illustrations of exemplary training guidance body type specific information provided using the exemplary method of FIG. 1, the exemplary system of FIG. 2, and the components of the apparatus of FIGs. 27- 30. In this example, a 54 second clip is presented to the user to show them how to use the training carpet and pegs given their specific body type. At the step of FIG. 31 , the general placement of the feet is shown to the user. At the step of FIG. 32, the user is instructed to place the left foot to align with the D indicia. At the step of FIG. 33, the user is instructed to place the right foot to align with the L indicia. At the step of FIG. 34, the user is instructed to place the long peg on the circular area numbered 16. At the step of FIG. 35, the user is instructed to place their belt buckle over the circular area numbered 16. Advantageously, the cooperation between the long peg, the body type specific information system, and the carpet enables this proper positioning. A highlighted line is provided in the info graphic to emphasize what the user should focus on. At the step of FIG. 36, the user is given guidance on how to position the angle of the left leg. Advantageously, the info graphic illustrates the angles by augmenting the picture of the golfer with highlight lines that show the correct positioning. At the step of FIG. 37, guidance is given to assist the user to position their hands ahead of the circular area numbered 16. Highlight circles are used to emphasize the position of the hands relative to the numbered circular area 16. At the step of FIG. 38, a profile view is presented to the user so that the user understands that their hands are ahead of the numbered area 16 in the profile as well as in the front view. A highlight circle and highlight line emphasize this in the info graphic. At the step of FIG. 39, the user is instructed to place their back belt loop above numbered circle 13, whereat is shown a peg and a highlight info graphic line. At the step of FIG. 40, the user is instructed to flex their knee over circle 7, whereat a left peg has been shown and a highlight line has been added to the info graphic. The above guidance was provided as an example only. It is contemplated by the inventor to decompose all guidance into reusable elements so that all 108 body type guidance can be provided using a minimal set of information resources. In alternative embodiments, the guidance is provided using augmented reality such that instead of an infographic, an overlay is provided in either 2D (e.g. on the ground) or 3D space (e.g. around the user and over an overlay of the training carpet or a real carpet).

[0042] Although not expressly shown, in alternative embodiments, it is contemplated that machine vision or motion capture can be utilised to derive all of the measurements required from the two images, the techniques required to do so being evident to those of skill in the relevant art.

[0043] Although not expressly shown in the drawings, in alternative embodiments of the user interface aspect that uses photographs to measure body type information, instead of using dots in the user interface to determine body type measurements from a photograph, lines, or a combination of dots and lines are used. In alternative embodiments of the carpet component, the carpet is provided as a virtual reality or augmented reality representation instead of a carpet. In alternative embodiments of the guidance information aspect, the guidance information is provided as a virtual reality or augmented reality presentation either over the real carpet or a virtual reality or augmented reality carpet.

[0044] One of the many advantages of providing access to guidance based on body type information is that the information provided is specific to the body type of the individual and therefore more pertinent to that individual, while at the same time guarding against use of that information from individuals who have different body types, thereby decreasing the likelihood that unauthorized copies of the body type specific information would be useable by others that are not authorized to access that information.

[0045] In alternative embodiments, the body type specific information is digitally watermarked or subject to digital rights management to further limit access to body type specific information to one or a group of authorized individuals only.

[0046] In alternative embodiments, body type measurements are obtained from a 3D model of the body of a golfer that is 3D scanned using a 3D scanner or motion sensing input device, or obtained from measurements made by a professional at a fitting session using a tape measure, or a combination of both.

[0047] Disclosed and illustrated herein are preferred embodiments. However, it is anticipated by the inventor that, for example, that the number of criteria, order of criteria, and range of criteria values may be configured differently to provide alternative embodiments of body type criteria, and that those criteria may be utilised to determine a body type that results in a different body type number, or that the body type may be represented using other information than a number. Therefore, any such variations are contemplated to be within the general scope of the present application. Likewise, variations on the apparatus components, information provided and body type specific information such as guidance are also contemplated to be within the scope of the present application.

[0048] The embodiments described herein are examples of structures, systems or methods having elements corresponding to elements of the techniques of this application. This written description may enable those skilled in the art to make and use embodiments having alternative elements that likewise correspond to the elements of the techniques of this application. The intended scope of the techniques of this application thus includes other structures, systems or methods that do not differ from the techniques of this application as described herein, and further includes other structures, systems or methods with insubstantial differences from the techniques of this application as described herein.

[0049] The above-described embodiments of the present techniques are intended to be examples only. Those of skill in the art may effect alterations, modifications and variations to the particular embodiments without departing from the scope of the techniques.