What is claimed is:
1. A fuse assembly comprising: a pair of terminals which are arranged in parallel to each other; a housing having a cavity for containing one end portions of said terminals; and a fusible body interconnecting said terminals,
wherein said fuse assembly is provided with anchoring parts for mounting said fusible body to said housing.
2. The fuse assembly according to claim 1, wherein each of said anchoring parts includes:
a through hole passing through said fusible body; and
a projection projected from an inner wall of said housing defining said cavity, said projection being adapted to be engaged in said through hole.
3. The fuse assembly according to claim 2, wherein said fusible body includes supporting portions which are respectively connected to end faces positioned at said one end portions of the terminals,
said through holes being formed in said supporting portions.
4. The fuse assembly according to claim 3, wherein said fuse assembly further includes second anchoring parts for respectively mounting said terminals to said housing, and
said through holes are provided at ends of said supporting portions remote from said end faces of said terminals.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. An age estimation apparatus for estimating an age of an object contained by an image data, the age estimation apparatus comprising:
a processor configured to control any of a dimension compression unit and an identification unit;
the dimension compression unit configured to output low dimensional data of image data by applying a dimension compression to the image data by extracting a feature from the image data; and
the identification unit configured to minimize a value of a predetermined function, to set a learned parameter for determining an age bracket in which an error of an estimated age is minimized, and to estimate the age using the learned parameter, wherein
the age is estimated from a feature which is contained in the low dimensional data,
the error is calculated between the estimated age and a correct age,
the predetermined function is defined by the error,
the learned parameter is set by a weighting function which is a function of the age bracket,
the correct age being the age of the object contained by the image data,
the weighting function is defined on the basis of a standard deviation of each of a plurality of perceptual ages, and
the identification unit is further configured to estimate the age to closely match a human recognition result.
2. The age estimation apparatus according to claim 1, wherein a plurality of the weighting functions are used.
3. An age estimation method for estimating an age of an object contained by an image data, comprising:
outputting, to an identification device, low dimensional data of the image data by applying a dimension compression to the image data by extracting a feature from the image data;
estimating an age of the object on the image data from a feature extracted from the image data contained in the low dimensional data;
defining a value of a predetermined function by an error between the estimated age and a correct age;
minimizing the value of the predetermined function;
setting a learned parameter for determining an age bracket by a weighting function which is a function of age for determining the age bracket in which the error of the estimated age is minimized, wherein
the estimated age is estimated from the feature contained in the low dimensional data using the learned parameter,
the correct age being the age of the object contained by the image data,
defining the weighting function on the basis of a standard deviation of each of a plurality of perceptual ages, and
estimating the age to closely match a human recognition result.
4. The age estimation method according to claim 3, wherein a plurality of the weighting functions are used.