Shape sensor system

The invention claimed is: 1. An endoscope system comprising: an insertion portion; and a shape sensor system to detect a bending state or a bending shape of the insertion portion, the shape sensor system comprising: a shape sensor, the shape sensor comprising: a probe that has an elongated shape and that is bendable in accordance with a shape of a target portion of the insertion portion; and a controller comprising hardware, the controller being configured to: detect a shape of the probe; detect signals associated with a shape of the insertion portion; and estimate the shape of the insertion portion from the detected signals, the probe comprising: a core having a high rigidity and extending along a longitudinal direction of the probe; and a plurality of small diameter bending members braided around the core and including one or more small diameter bending probe elements provided with one or more detection target materials from which information is detected to detect the shape of the probe, the small diameter bending members including at least two bundles that are divided into two, wherein one bundle is spirally wound around the core clockwise about a longitudinal direction of the core, the other bundle is spirally wound around the core counterclockwise about the longitudinal direction of the core, and the two bundles are wound at a constant pitch or different pitches and intersect each other at a plurality of portions on the core to form a braided structure that holds the detection target materials so as not to be rotated around the longitudinal direction to fix the small diameter bending members to the core at least near all the detection target materials; wherein the probe is detachably attached to the insertion portion, the insertion portion including a long bendable channel through which the small diameter bending members are inserted. 2. The endoscope system of claim 1 , wherein all of the small diameter bending members braided into the branded structure have the same braided pattern except that some of the small diameter bending members are arranged in a mirror-image arrangement. 3. The endoscope system of claim 1 , wherein the small diameter bending members form at least one set, the at least one set comprising two bundles, each of the two bundles comprising at least one small diameter bending member and, each of the two bundles forming the set being wound around the core clockwise and counterclockwise respectively, and braided to intersect every half cycle. 4. The endoscope system of claim 1 , wherein the shape sensor comprises fiber sensors including a plurality of optical fibers as the small diameter bending members, each provided with the detection target portions, at least a portion of the small diameter bending members in the braided structure being fixed to the core member by an adhesive. 5. The endoscope system of claim 1 , wherein the shape sensor comprises a fiber sensor including a plurality of optical fibers as the small diameter bending members, each provided with the detection target materials, and the optical fibers provided with the detection target materials are fixed to the core member at a predetermined pitch. 6. The endoscope system of claim 5 , wherein all the detection target materials are arranged substantially at the predetermined pitch in the longitudinal direction of the probe, and all the optical fibers provided with the detection target materials are fixed to the core at the predetermined pitch in positions including vicinities of all detection target materials. 7. The endoscope system of claim 4 , wherein all the optical fibers provided with the detection target materials are fixed to the core in vicinities of the detection target materials substantially parallel with the core. 8. The endoscope system of claim 6 , wherein all the optical fibers provided with the detection target materials are fixed to the core in vicinities of the detection target materials substantially parallel with the core. 9. The endoscope system of claim 1 , wherein the small diameter bending members include at least one dummy small diameter bending member similar to the small diameter bending members of the shape sensor for detection. 10. The endoscope system of claim 1 , wherein the probe further comprises a sheath arranged to enclose the small diameter bending members from outside. 11. The endoscope system of claim 10 , wherein either a maximum curvature or a minimum bending radius is determined in the probe, and when bending at the maximum curvature, an inner surface of the sheath encircles the small diameter bending members which are bundled in a cross-sectional view. 12. An endoscope system comprising: an insertion section; and a shape sensor system to detect a bending state or a bending shape of the insertion portion, the shape sensor system comprising a shape sensor, the shape sensor comprising: a probe that has an elongated shape and that is bendable in accordance with a shape of a target portion of the insertion portion; and a controller comprising hardware, the controller being configured to: detect a shape of the probe portion; detect signals associated with a shape of the insertion portion; and estimate the shape of the insertion portion from the detected signals, the probe comprising: a core having a high rigidity and extending along a longitudinal direction of the probe; and a plurality of small diameter bending members braided around the core and including one or more small diameter bending probe elements provided with one or more detection target materials from which information is detected to detect the shape of the probe, the small diameter bending members including at least two bundles that are divided into two, wherein one bundle is spirally wound around the core clockwise about a longitudinal direction of the core, the other bundle is spirally wound around the core counterclockwise about the longitudinal direction of the core, and the two bundles intersect each other at a plurality of portions on the core to form a braided structure that holds the detection target materials so as not to be rotated around the longitudinal direction; wherein the probe is detachably attached to the insertion portion, the insertion portion including a long bendable channel through which the small diameter bending members are inserted. 13. A shape sensor system to detect a bending state or a bending shape of a subject, the shape sensor system comprising: a shape sensor, the shape sensor comprising: a probe that has an elongated shape and that is bendable in accordance with a shape of a target portion of the subject; and a controller comprising hardware, the controller being configured to: detect a shape of the probe; detect signals associated with a shape of the subject; and estimate the shape of the subject from the detected signals, the probe comprising: a core having a high rigidity and extending along a longitudinal direction of the probe; and a plurality of small diameter bending members braided around the core and including one or more small diameter bending probe elements provided with one or more detection target materials from which information is detected to detect the shape of the probe, the small diameter bending members including at least two bundles that are divided into two, wherein one bundle is spirally wound around the core clockwise about a longitudinal direction of the core, the other bundle is spirally wound around the core counterclockwise about the longitudinal direction of the core, and the two bundles are wound at a constant pitch or different pitches and intersect each o