Package loading instruction method and loading instruction system

The invention claimed is: 1. A method of instructing a loading of a package, comprising: providing a single light source and a single light receiving element; estimating an arrangement of a plurality of loaded packages three-dimensionally; determining, based on the estimated arrangement, a loading position at which a target package is loaded next; instructing a position at which the target package is loaded by irradiation with an index light indicating the determined loading position; causing the single light source to irradiate the plurality of loaded packages with a first measurement light; causing the single light receiving element to receive a first reflection light which is generated by the first measurement light being reflected from the plurality of packages; causing the single light source to irradiate the target package with a second measurement light; causing the single light receiving element to receive a second reflection light generated by irradiating the target package with the second measurement light being reflected from the target package; and estimating the three-dimensional shape of the target package based on the second reflection light, wherein said estimating the arrangement comprises estimating the arrangement of the plurality of packages three-dimensionally based on the first reflection light, wherein said determining the loading position comprises determining the loading position based on the estimated arrangement and a three-dimensional shape of the target package, and wherein said determining the loading position based on the estimated arrangement and the three-dimensional shape of the target package comprises determining the loading position based on the estimated arrangement and the estimated three-dimensional shape of the target. 2. The method of claim 1 , wherein said receiving the first reflection light comprises receiving the first reflection light with a light receiving element, and wherein said estimating the arrangement based on the first reflection light comprises estimating the arrangement three-dimensionally by calculating a distance between the light receiving element and each of the plurality of packages based on a time difference between a time point when the first measurement light is irradiated and a time point when the first reflection light is received with the light receiving element. 3. The method of claim 1 , wherein the first measurement light is a laser slit light, and wherein said receiving the first reflection light comprises imaging the first reflection light with a high-speed camera. 4. The method of claim 1 , wherein said instructing the position at which the target package is loaded by irradiation with the index light indicating the determined loading position comprises instructing the position at which the target package is loaded by causing the single light source to irradiate the index light indicating the determined loading position. 5. The method of claim 1 , wherein said estimating the arrangement of the plurality of loaded packages three-dimensionally comprises estimating the arrangement of the plurality of loaded packages three-dimensionally using a two-dimensional distance image of the plurality of loaded packages. 6. A loading instruction system comprising: an arrangement estimation device that estimates an arrangement of a plurality of loaded packages three-dimensionally; a controller that determines, based on the estimated arrangement, a loading position at which a target package is loaded next; an irradiation device that instructs a position at which the target package is loaded by irradiation with an index light indicating the determined loading position; a single light source; and a single light receiving element, wherein the single light source is configured to irradiate the plurality of loaded packages with a first measurement light, wherein the single light receiving element is configured to receive a first reflection light generated by the first measurement light being reflected from the plurality of packages, wherein the single light source is configured to irradiate the target package with a second measurement light, wherein the single light receiving element is configured to receive a second reflection light generated by the second measurement light being reflected from the target package, wherein the arrangement estimation device is configured to: three-dimensionally estimate the arrangement of the plurality of packages based on the first reflection light; and estimate the three-dimensional shape of the target package based on the second reflection light, and wherein the controller is configured to determine the loading position based on the estimated arrangement and the estimated three-dimensional shape of the target package. 7. The loading instruction system of claim 6 , wherein the arrangement estimation device is configured to estimate the arrangement three-dimensionally by calculating a distance between the light receiving element and each of the plurality of packages based on a time difference between a time point when the first measurement light is irradiated and a time point when the first reflection light is received with by the light receiving element. 8. The loading instruction system of claim 6 , wherein the first measurement light is laser slit light, and wherein the arrangement estimation device includes a high-speed camera that images the first reflection light. 9. The loading instruction system of claim 6 , wherein the controller is configured to determine the loading position based on the estimated arrangement and a three-dimensional shape of the target package. 10. The loading instruction system of claim 6 , wherein the single light source is configured to irradiate an index light indicating the determined loading position. 11. The loading instruction system of claim 6 , wherein the arrangement estimation device estimates the arrangement of the plurality of loaded packages three-dimensionally using a two-dimensional distance image of the plurality of loaded packages.