A method and a device for easily setting a processing condition from a dent rate of a product by giving an arbitrary dent producing condition and a shotblast processing condition in a shotblasting process. The method calculates a processing time, a projection amount and a projection material speed for enabling a target dent rate to be set, from the number of dents in a predetermined dent unit area and time. The method comprises the steps of: calculating a dent unit area from a projection material hardness, a projection material particle size, a projection material speed and the hardness of a processed product; calculating the number of dents required to attain a predetermined target dent rate; and calculating a processing time from the number of dents, a projection amount, a projection material density and the projection material particle size.

A surface of a long flat product is observed in a production process by way of a surface inspection system. The entire surface is plotted, on the basis of the observation data, as a surface map with established surface characteristics in the, form of surface data and the surface characteristics are classified according to the different types and/or sizes and/or frequency and registered in the surface map according to their position. Production data and product data are jointly fed to a data processing unit in which they are analyzed to determine correlations between them. Rules dealing with the dependence of product data upon given production data are determined so that process parameters can be regulated in line with the rules thus determined to obtain a desired quality. Interrelationships can be recognized between process parameters and the emergence of surface errors, for instance in continuous casting and rolling facilities for steel sheets.

The invention relates to a method for the determination of stand attributes with an instrument above the stand. In the method, three-dimensional information is collected from the stands by using such a number of sample hits, that individual trees or groups of trees can be distinguished. A three-dimensional tree height model is produced from collected information. Stand attributes--which are characteristics of individual trees or groups of trees and/or characteristics derived using these information for larger areas--are determined from the tree height model. The invention also relates to a computer program which can be used to carry out the second and third step of the method.