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Product Identity Sewing Machine Industry Creating Product Identity by Means of Introducing Enterprise Culture The aim of Xi’an Typical Industry Co., Ltd is “Typical Your Choice”. Today, both humanization and the theme of creating harmonious society are emphasized in enterprise culture, and customer’s satisfaction is always taken into consideration in design and production. So, while creating product identity, firstly, the intention of the sewing machine was designed simply in order that the users could study and operate easily and get quick reaction; secondly, the users’ skillful operation secured the high efficiency and good safety performance of; thirdly, the machine’s breakdown rate was lower, the maintenance was convenient and the users can do it mostly, fourthly, the shape was clear and graceful and the users would hardly feel tired due to its refreshing color; finally, the reasonable price also brought customers’ wide acceptance. The product modeling must be as sturdy, credible

Product Identity Sewing Machine Industry Creating Product Identity by Means of Introducing Enterprise Culture The aim of Xi’an Typical Industry Co., Ltd is “Typical Your Choice”. Today, both humanization and the theme of creating harmonious society are emphasized in enterprise culture, and customer’s satisfaction is always taken into consideration in design and production. So, while creating product identity, firstly, the intention of the sewing machine was designed simply in order that the users could study and operate easily and get quick reaction; secondly, the users’ skillful operation secured the high efficiency and good safety performance of; thirdly, the machine’s breakdown rate was lower, the maintenance was convenient and the users can do it mostly, fourthly, the shape was clear and graceful and the users would hardly feel tired due to its refreshing color; finally, the reasonable price also brought customers’ wide acceptance. The product modeling must be as sturdy, credible

Research and Application of Product Identity Introduction in Sewing Machine Industry Under the circumstances of encouraging independent intellectual property, nearly all the enterprises were working hard to create new design for their products by means of industrial design, unfortunately, most of them only considered a product’s market and appearance and made the business product identity very confusing. The solution was to introduce product identity (PI). This research put forward introducing product identity design in the enterprises, analyzed sewing machine enterprise’s features, accomplished designing a type of sewing machine product identity system in Xi’an Typical Industry Co., Ltd. This case illustrated that the introduction of product identity design was both correct and feasible. VS Enterprises Under the circumstances of encouraging independent intellectual property, nearly all the enterprises were undergoing the independent innovation of the product development. With the h

Software for the Sewing Industry The software with the user graphic interface hasbeen developed for the sewing path design in theembroidery industry. This new version of software isan advanced version of the last one and isincorporated many advanced new functions. The mainpurpose of the software is to create an easy andpainless environment for the designer to create theirown artistic sewing pattern with suitable sewing path.The resulting sawing path will be automaticallytransformed into a file with the absolutely or relativelycoordinate value of each stitch point on the sewingpath. The coordinate file will feed into the embroiderymachine for the recreation of the design pattern on thesurface of the product.Commercial graphic software does not provide thesuitable function to transform each stitch point intotheir respective coordinate values. This drawback isresulted in the transformation process to be done byhand and by means of measuring each stitch point bydesignerone point by one po

Path Design on the Broidery Industry for the Sewing The proposed software is implemented based onVisual Basic 6 and under WindowXP operating system.The data structure for each stitch point includes thecoordinate of starting points(X1,Y1), VS Sewing Machines the absolutelycoordinate system(X2,Y2), index of the stitch point, andthe next node pointer. A link list is implementing forstoring of information of each line segment [5]. Thelink list is used for the ease of operations of addition,insertion, and deletion. Stacks are utilized for theactions of undo and redoAddition of point: A link list is declared with thedata structure of the coordinate of starting points X1,Y1, absolute coordinate X2, Y2, index number, andnext node field pointing to next node.Insertion of point: Two points constitutes a linesegment. The insertion process is done by inserting apoint on a desired line segment. The newly inserted-point will become a new node and utilized the nextnode field in each node to constru

Research and Application of Product Identity Introduction in Sewing Machine Industry Under the circumstances of encouraging independent intellectual property, nearly all the enterprises were working hard to create new design for their products by means of industrial design, unfortunately, most of them only considered a product’s market and appearance and made the business product identity very confusing. The solution was to introduce product identity (PI). This research put forward introducing product identity design in the enterprises, analyzed sewing machine enterprise’s features, accomplished designing a type of sewing machine product identity system in Xi’an Typical Industry Co., Ltd. This case illustrated that the introduction of product identity design was both correct and feasible. VS Enterprises Under the circumstances of encouraging independent intellectual property, nearly all the enterprises were undergoing the independent innovation of the product development. With the h

Software for the Sewing Industry The software with the user graphic interface hasbeen developed for the sewing path design in theembroidery industry. This new version of software isan advanced version of the last one and isincorporated many advanced new functions. The mainpurpose of the software is to create an easy andpainless environment for the designer to create theirown artistic sewing pattern with suitable sewing path.The resulting sawing path will be automaticallytransformed into a file with the absolutely or relativelycoordinate value of each stitch point on the sewingpath. The coordinate file will feed into the embroiderymachine for the recreation of the design pattern on thesurface of the product.Commercial graphic software does not provide thesuitable function to transform each stitch point intotheir respective coordinate values. This drawback isresulted in the transformation process to be done byhand and by means of measuring each stitch point bydesignerone point by one po

Path Design on the Broidery Industry for the Sewing The proposed software is implemented based onVisual Basic 6 and under WindowXP operating system.The data structure for each stitch point includes thecoordinate of starting points(X1,Y1), VS Sewing Machines the absolutelycoordinate system(X2,Y2), index of the stitch point, andthe next node pointer. A link list is implementing forstoring of information of each line segment [5]. Thelink list is used for the ease of operations of addition,insertion, and deletion. Stacks are utilized for theactions of undo and redoAddition of point: A link list is declared with thedata structure of the coordinate of starting points X1,Y1, absolute coordinate X2, Y2, index number, andnext node field pointing to next node.Insertion of point: Two points constitutes a linesegment. The insertion process is done by inserting apoint on a desired line segment. The newly inserted-point will become a new node and utilized the nextnode field in each node to constru

Real-Time Designing Software for the Sewing The software with the user graphic interface hasbeen developed for the sewing path design in theembroidery industry. This new version of software isan advanced version of the last one and isincorporated many advanced new functions. The mainpurpose of the software is to create an easy andpainless environment for the designer to create theirown artistic sewing pattern with suitable sewing path.The resulting sawing path will be automaticallytransformed into a file with the absolutely or relativelycoordinate value of each stitch point on the sewingpath. The coordinate file will feed into the embroiderymachine for the recreation of the design pattern on thesurface of the product.Commercial graphic software does not provide thesuitable function to transform each stitch point intotheir respective coordinate values. This drawback isresulted in the transformation process to be done byhand and by means of measuring each stitch point bydesignerone poin

Real-Time Designing Software for the Sewing The software with the user graphic interface hasbeen developed for the sewing path design in theembroidery industry. This new version of software isan advanced version of the last one and isincorporated many advanced new functions. The mainpurpose of the software is to create an easy andpainless environment for the designer to create theirown artistic sewing pattern with suitable sewing path.The resulting sawing path will be automaticallytransformed into a file with the absolutely or relativelycoordinate value of each stitch point on the sewingpath. The coordinate file will feed into the embroiderymachine for the recreation of the design pattern on thesurface of the product.Commercial graphic software does not provide thesuitable function to transform each stitch point intotheir respective coordinate values. This drawback isresulted in the transformation process to be done byhand and by means of measuring each stitch point bydesignerone poin

SEWING MACHINE SENSING DEVICE DEVELOPMENT FOR SMART FACTORY A. Device for checking and indicating the rest of under thread sewing yarn of sewing machine The sewing work can work in a situation where there is no under-thread by mistake. This leads to defective products and economic losses. To solve this problem, there is a need for a device for detecting the remaining amount of under-thread and transmitting it to an operator. Fig. 3 shows the sensing signal configuration for system design to detect the residual under-thread amount and the system configuration diagram to control it by linking it. The orange block shows the status of the warning lights, the PLC, the touch screen, and the main brake, while the blue block indicates each sensor and control signal for control. Each component of the test apparatus for the detection of the residual thread volume consists of the lower part of the sewing machine and the display part. Under-thread residual sensing device was designed and imple

SEWING MACHINE SENSING DEVICE DEVELOPMENT FOR SMART FACTORY A. Device for checking and indicating the rest of under thread sewing yarn of sewing machine The sewing work can work in a situation where there is no under-thread by mistake. This leads to defective products and economic losses. To solve this problem, there is a need for a device for detecting the remaining amount of under-thread and transmitting it to an operator. Fig. 3 shows the sensing signal configuration for system design to detect the residual under-thread amount and the system configuration diagram to control it by linking it. The orange block shows the status of the warning lights, the PLC, the touch screen, and the main brake, while the blue block indicates each sensor and control signal for control. Each component of the test apparatus for the detection of the residual thread volume consists of the lower part of the sewing machine and the display part. Under-thread residual sensing device was designed and imple

Energy Efficient Control and Monitoring System for Sewing Machine in Garment Section The textile industry is one of the major and largest manufacturing industries in Pakistan. Pakistan is the 8th largest exporter of textile commodities in Asia. This sector contributes 8.5% to the GDP [1]. In addition, the sector employs about 45% of the total labor force in the country, which includes the 38% of the manufacturing workers [2]. Moreover, Pakistan is the 4th largest producer of cotton with the third largest spinning capacity in Asia after China and India and contributes 5% to the global spinning capacity [3]. At present, there are 1,221 ginning units, 442 spinning units as well as 124 large spinning units and 425 small units which produce textile [4]. Master textile is one of the foremost and leading textile manufacturers, based in Lahore, Pakistan that is engaged in the export of quality products such as yarns, garments and fibers. They established a name of credentials owing to the pro

Energy Efficient Control and Monitoring System for Sewing Machine in Garment Section The textile industry is one of the major and largest manufacturing industries in Pakistan. Pakistan is the 8th largest exporter of textile commodities in Asia. This sector contributes 8.5% to the GDP [1]. In addition, the sector employs about 45% of the total labor force in the country, which includes the 38% of the manufacturing workers [2]. Moreover, Pakistan is the 4th largest producer of cotton with the third largest spinning capacity in Asia after China and India and contributes 5% to the global spinning capacity [3]. At present, there are 1,221 ginning units, 442 spinning units as well as 124 large spinning units and 425 small units which produce textile [4]. Master textile is one of the foremost and leading textile manufacturers, based in Lahore, Pakistan that is engaged in the export of quality products such as yarns, garments and fibers. They established a name of credentials owing to the pro

Simulation Modeling of Sewing Process for Evaluation of Production Schedule in Smart Factory Industrie 4.0, proposed by DFKI [1], is defined as the 4th industrial revolution based on Internet-of-Things (IoT) [2], cyber-physical systems (CPS) [3], and Internet-of-Services (IoS) [4]. One of the characteristics of Industrie 4.0 is that it includes smart factories capable of generating customized products for customers. One of the important issues to implement a smart factory is to complete and deliver customized products to customers within specified time. For this, we need an efficient scheduling algorithm [5]. It becomes more and more sophisticated work to validate a production schedule in factories. Simulation is a tool for validating a production schedule and changing it if needed. For using simulation, we need appropriate simulation models. In this paper, we propose a sewing machine model for simulating sewing process. The proposed sewing machine model includes sensing, sewing, forw

Simulation Modeling of Sewing Process for Evaluation of Production Schedule in Smart Factory Industrie 4.0, proposed by DFKI [1], is defined as the 4th industrial revolution based on Internet-of-Things (IoT) [2], cyber-physical systems (CPS) [3], and Internet-of-Services (IoS) [4]. One of the characteristics of Industrie 4.0 is that it includes smart factories capable of generating customized products for customers. One of the important issues to implement a smart factory is to complete and deliver customized products to customers within specified time. For this, we need an efficient scheduling algorithm [5]. It becomes more and more sophisticated work to validate a production schedule in factories. Simulation is a tool for validating a production schedule and changing it if needed. For using simulation, we need appropriate simulation models. In this paper, we propose a sewing machine model for simulating sewing process. The proposed sewing machine model includes sensing, sewing, forw

STEM Project-Based Learning (PBL) is a reform-based teaching and learning STEM Project-Based Learning (PBL) is a reform-based teaching and learning strategy that consists of a project containing a well-defined outcome that is accomplished through an ill-defined task. PBL intends to actualize learning around a project that includes describing ill-defined tasks, hypothesizing, modeling, testing, and refining [17; 18]. STEM PBLs engage students in tasks that are authentic, connect students’ K-12 education with their post-secondary education, and address future career learning needs [19]. http://www.karthividhyalaya.com/ There is evidence that student engagement in STEM focused PBLs can result in positive cognitive outcomes. For example, [20] found that there were significant positive differences between students’ content and procedural knowledge when the students participated in STEM PBL rather than traditional practices. Reference [21] found that when PBL practices were compared to tr

STEM Project-Based Learning (PBL) is a reform-based teaching and learning STEM Project-Based Learning (PBL) is a reform-based teaching and learning strategy that consists of a project containing a well-defined outcome that is accomplished through an ill-defined task. PBL intends to actualize learning around a project that includes describing ill-defined tasks, hypothesizing, modeling, testing, and refining [17; 18]. STEM PBLs engage students in tasks that are authentic, connect students’ K-12 education with their post-secondary education, and address future career learning needs [19]. http://www.karthividhyalaya.com/ There is evidence that student engagement in STEM focused PBLs can result in positive cognitive outcomes. For example, [20] found that there were significant positive differences between students’ content and procedural knowledge when the students participated in STEM PBL rather than traditional practices. Reference [21] found that when PBL practices were compared to tr