Insertion system and method of adjusting shape detection characteristics of shape sensor

What is claimed is: 1 . An insertion system comprising: an insertion device which comprises an elongated flexible insertion portion; a shape sensor which detects a shape of the insertion portion; an insertion device holder which holds the insertion device at one end of the insertion portion so that the other end of the insertion portion hangs; and an adjustment unit which determines an adjustment value to adjust shape detection characteristics of the shape sensor when the insertion device is held by the insertion device holder. 2 . The insertion system according to claim 1 , further comprising a holding state detection unit which detects whether the insertion device holder is holding the insertion device, wherein the adjustment unit determines the adjustment value when the holding state detection unit detects that the insertion device is held by the insertion device holder. 3 . The insertion system according to claim 2 , wherein the holding state detection unit is disposed in the insertion device holder, and includes a switch a state of which changes in accordance with at least one of a mechanical change, an optical change, and an electric change. 4 . The insertion system according to claim 3 , wherein the state of the switch changes due to a weight of the insertion device held by the insertion device holder. 5 . The insertion system according to claim 1 , further comprising an insertion portion state detection unit which acquires shape information regarding a shape of at least part of the insertion portion, wherein the adjustment unit determines the adjustment value based on the shape information. 6 . The insertion system according to claim 5 , wherein the shape information includes information regarding whether the shape of at least part of the insertion portion satisfies a predetermined condition, and the adjustment unit determines the adjustment value when the shape of the insertion portion satisfies the predetermined condition. 7 . The insertion system according to claim 5 , wherein the insertion portion includes a bending section which actively bends, the insertion system further comprises an operation portion which operates a bending state of the bending section, and the insertion portion state detection unit acquires the shape information regarding a shape of the bending section based on an operation amount of the operation portion. 8 . The insertion system according to claim 5 , wherein the insertion portion state detection unit includes a gravity sensor provided in the insertion device, and the insertion portion state detection unit acquires the shape information based on a direction of a position where the gravity sensor is provided relative to a gravity direction. 9 . The insertion system according to claim 5 , wherein the insertion portion state detection unit includes a proximity sensor which detects whether the insertion portion exists in a position where the insertion portion is located when the insertion device is held by the insertion device holder. 10 . The insertion system according to claim 5 , wherein the insertion portion state detection unit includes proximity sensors which detect whether the insertion portion exists in positions where the insertion portion is located when the insertion device is held by the insertion device holder, the positions being different positions in a longitudinal direction of the insertion portion. 11 . The insertion system according to claim 5 , wherein the insertion device has an image sensor, and the insertion portion state detection unit includes an imaging state determination unit which acquires the shape information based on image information obtained from the image sensor. 12 . The insertion system according to claim 5 , wherein the insertion portion state detection unit includes an external camera configured to image the insertion portion when the insertion device is held by the insertion device holder, and a camera image processing unit which acquires the shape information based on an image taken by the external camera. 13 . The insertion system according to claim 2 , wherein the holding state detection unit further acquires shape information regarding a shape of at least part of the insertion portion, and the adjustment unit determines the adjustment value based on the shape information when the holding state detection unit detects that the insertion device is held by the insertion device holder. 14 . The insertion system according to claim 13 , wherein the shape information includes information regarding whether the shape of at least part of the insertion portion satisfies a predetermined condition, and the adjustment unit determines the adjustment value when the shape of the insertion portion satisfies the predetermined condition. 15 . The insertion system according to claim 13 , wherein the holding state detection unit includes a proximity sensor configured to detect whether the insertion portion exists in a position where the insertion portion is located when the insertion device is held by the insertion device holder, determination of whether the insertion device is held by the insertion device holder and acquirement of the shape information being performed based on whether the insertion portion exists. 16 . The insertion system according to claim 13 , wherein the holding state detection unit includes proximity sensors configured to detect whether the insertion portion exists in positions where the insertion portion is located when the insertion device is held by the insertion device holder, the positions being different positions in a longitudinal direction of the insertion portion, determination of whether the insertion device is held by the insertion device holder and acquirement of the shape information being performed based on whether the insertion portion exists. 17 . The insertion system according to claim 13 , wherein the insertion device includes an image sensor, and the insertion portion state detection unit includes an imaging state determination unit which determines whether the insertion device is held by the insertion device holder and which acquires the shape information based on image information obtained from the image sensor. 18 . The insertion system according to claim 13 , wherein the holding state detection unit includes an external camera configured to image the insertion portion when the insertion device is held by the insertion device holder, and a camera image processing unit which determines whether the insertion device is held by the insertion device holder and which acquires the shape information based on an image taken by the external camera. 19 . The insertion system according to claim 2 , wherein the holding state detection unit includes a proximity sensor configured to detect whether the insertion portion exists in a position where the insertion portion is located when the insertion device is held by the insertion device holder, determination of whether the insertion device is held by the insertion device holder being performed based on whether the insertion portion exists. 20 . The insertion system according to claim 2 , wherein the insertion device has an image sensor, and the holding state detection unit includes an imaging state determination unit which determines whether the insertion device is held by the insertion device holder based on image information obtained from the image sensor. 21 . The insertion system acco