On-loom fabric inspection system (500) including an imaging device (522) configured to collect images of a weaving area (518) of a loom (502). An image-capture trigger-mechanism (529) triggers the imaging device (522) to capture images at required instants during the weaving cycle. An image processor (524) receives data from the imaging device (522) and further detects irregularities in the data.

A system, method, and material for encouraging study or mastery of a fibre art skill is provided. A fibre source material is incentivized to encourage individuals learning or mastering a fibre art skill by concealing a tracker in the fibre material or attaching it to the packaging of the fibre material. The tracker may be a coupon, token, or ticket that reveals a code, number, or some other form of identifier associated with an incentive. The tracker is revealed upon unwinding the fibre material while performing the fibre art skill, which allows the individual to exchange the revealed tracker for an incentive at, for example, a specific store, online, or through some other specified manner

A system, method, and material for encouraging study or mastery of a fibre art skill is provided. A fibre source material is incentivized to encourage individuals learning or mastering a fibre art skill by concealing a tracker in the fibre material or attaching it to the packaging of the fibre material. The tracker may be a coupon, token, or ticket that reveals a code, number, or some other form of identifier associated with an incentive. The tracker is revealed upon unwinding the fibre material while performing the fibre art skill, which allows the individual to exchange the revealed tracker for an incentive at, for example, a specific store, online, or through some other specified manner.

On-loom fabric inspection system (500) including an imaging device (522) configured to collect images of a weaving area (518) of a loom (502). An image-capture trigger-mechanism (529) triggers the imaging device (522) to capture images at required instants during the weaving cycle. An image processor (524) receives data from the imaging device (522) and further detects irregularities in the data.

Techniques for operating a loom to produce multiple different textiles during a single operation of the loom. Conventionally, a loom produces a single textile during each single operation of the loom. When producing multiple different textiles during a single operation of the loom, a single run of the mill may generate the multiple different textiles for multiple different customers. In some embodiments, during a single operation of a loom, the loom may generate a single piece of loom-finished fabric that includes multiple different textiles for multiple different customers and, following the single run of the mill, the single piece of loom-finished fabric may be cut apart to yield the different textiles, which may be one, two, more than five, more than ten, or any suitable number of different textiles for any suitable number of different customers.

An interactive loom, which includes a loom-mechanism, a user interface, a loom interface, and a controller. Each cam is in the form of a cylinder rotating about the axis thereof. The circumferential surface of the cam exhibits a determined surface geometry, such that each of a plurality of sections of said circumferential surface corresponds to a respective one of the arms. The circumferential surface further exhibits a respective cross sectional profile and such that each rotational position of said cam is associated with a respective state of lowered and raised arms. The loom-interface includes a motor coupled with the cam, and operates loom-mechanics according to instructions. The controller receives a design from the user-interface and transforms the design into a sequence of states of the arms required for achieving the design. The controller further provides the instructions to the loom-interface. The instructions are associated with state changes of the arms.

A section procedure tracking method comprises following steps: storing a plurality of process objects from a plurality of machines; calculating a plurality of basic process values according to a tension information, a length information, a speed information and a timing information of the process objects in a basic sequence; calculating an average basic value according to the basic process values; calculating a plurality of extra process values according to the tension information, the length information, the speed information and the timing information of the process objects in an extra sequence; calculating an average extra value according to the extra process values; selecting one of the average basic value and the average extra value having the smaller value; and selecting a search path corresponding to the smaller one of the average basic value and the average extra value as a process search order.

Techniques for operating a loom to produce multiple different textiles during a single operation of the loom. Conventionally, a loom produces a single textile during each single operation of the loom. When producing multiple different textiles during a single operation of the loom, a single run of the mill may generate the multiple different textiles for multiple different customers. In some embodiments, during a single operation of a loom, the loom may generate a single piece of loom-finished fabric that includes multiple different textiles for multiple different customers and, following the single run of the mill, the single piece of loom-finished fabric may be cut apart to yield the different textiles, which may be one, two, more than five, more than ten, or any suitable number of different textiles for any suitable number of different customers.

A textile machine adjustment method is provided. An operating speed of a textile machine within an operating range is set by a processor according to the basic information of the fabric. A motion image of the fabric and the vibration characteristics of the yarns are recorded by a video camera. The operating speed of the textile machine is adjusted at least once, and the vibration characteristics of the yarns is analyzed after each adjustment of the operating speed. Multiple correlation factor functions and the relative weights of the multiple factors related to the operating speed of the textile machine are recorded. The relative weights of the multiple factors are adjusted according to a yield quality of the fabric. When an expected value is met, the fabric continues to be produced at the current operating speed; otherwise, the relative weights of multiple factors are adjusted to correct the operating speed.

Techniques for operating a loom to produce multiple different textiles during a single operation of the loom. Conventionally, a loom produces a single textile during each single operation of the loom. When producing multiple different textiles during a single operation of the loom, a single run of the mill may generate the multiple different textiles for multiple different customers. In some embodiments, during a single operation of a loom, the loom may generate a single piece of loom-finished fabric that includes multiple different textiles for multiple different customers and, following the single run of the mill, the single piece of loom-finished fabric may be cut apart to yield the different textiles, which may be one, two, more than five, more than ten, or any suitable number of different textiles for any suitable number of different customers.