Abstract: An apparatus for assessing compliance with animal welfare on an animal for slaughter. The apparatus has an image capture unit with a capture region in which a section of a surface of the animal is optically captured and in which pixels are captured. The capture unit provides pixel data in a transmittable manner. The apparatus has an evaluation unit connected to the capture unit to capture the pixel data. A normative model of the animal is stored in the evaluation unit and represents a formation of animal-related features conforming to animal welfare. The evaluation unit relates the pixel data to the model and determines a deviation of the pixel data from the model and provides the deviation as a deviation of the animal from the model in a form that can be output. A method for assessing compliance with animal welfare is carried out on the apparatus.

Abstract: A method to capture data for animals to be slaughtered with an image capture unit that has an image capture range in which a surface of an animal to be slaughtered is captured visually and in which image points on the surface of the animal are captured. The capture unit provides image point data from the image points in transmittable form. An evaluation unit captures the point data and uses the point data to capture markings on the rear surface of the animal. The evaluation unit provides the markings as a storable capture result. Image points on the surface of the animal are captured in the image capture range. The points contain the markings. The capture unit transmits the point data. The evaluation unit captures the image point data. The method makes an association of an identification code for an animal with the point data. The evaluation unit provides the markings as a storable capture result with the code for the animal.

Abstract: The invention relates to a device for optically identifying the sex of a slaughter pig with a depth camera that has a depth camera acquisition region in which a genital region of the pig and spatial coordinates of pixels are acquired. The spatial coordinates are provided in a transmittable manner and include a positioning device to position the depth camera relative to the genital region of the pig. The device includes an evaluation unit connected to the depth camera. The spatial coordinates are acquired by the evaluation unit to determine a phenotypic sex of the pig.

Abstract: An apparatus for classifying a food item of organic or irregular structure includes an image capture unit, a data input unit, and a data output unit. An evaluation unit is connected to said image capture unit, to said data input unit and to said data output unit. The image capture unit captures the food item as optical data and provides the optical data in transmittable form for transmission to the evaluation unit. The evaluation unit extracts feature values of the food item from the optical data. The feature values are combined to form a feature value tuple for the food item. The feature value tuple is automatically assignable to a feature value tuple range. The feature value tuple range is formed by one or more feature value tuples. The feature value tuple range is assigned a class. The data input unit is used to perform an assignment of the class to the feature value tuple range.

Abstract: The invention relates to a device for optically identifying the sex of a slaughter pig with a depth camera that has a depth camera acquisition region in which a genital region of the pig and spatial coordinates of pixels are acquired. The spatial coordinates are provided in a transmittable manner and include a positioning device to position the depth camera relative to the genital region of the pig. The device includes an evaluation unit connected to the depth camera. The spatial coordinates are acquired by the evaluation unit to determine a phenotypic sex of the pig.

Abstract: A device for controlling the anesthetization of an animal to be slaughtered. The device includes a stimulation unit via which a stimulation stimulus is given to the animal. The device includes an image capturing unit that has an image capturing range. The image capturing unit is constructed as a 3D-camera. One part of a surface of the animal is optically detected in the image capturing range and range pixels are collected in the area of the surface. The range pixels are provided and transmitted as pixel data. An evaluation unit is connected to the image capturing unit and collects the pixel data provided by the image capturing unit. The evaluation unit determines an active movement of the animal from the detected pixel data and provides and transmits the control result in the event of a determined movement of the animal.

Abstract: An apparatus for assessing compliance with animal welfare on an animal for slaughter. The apparatus has an image capture unit with a capture region in which a section of a surface of the animal is optically captured and in which pixels are captured. The capture unit provides pixel data in a transmittable manner. The apparatus has an evaluation unit connected to the capture unit to capture the pixel data. A normative model of the animal is stored in the evaluation unit and represents a formation of animal-related features conforming to animal welfare. The evaluation unit relates the pixel data to the model and determines a deviation of the pixel data from the model and provides the deviation as a deviation of the animal from the model in a form that can be output. A method for assessing compliance with animal welfare is carried out on the apparatus.

Abstract: A device for controlling the anesthetization of an animal to be slaughtered. The device includes a stimulation unit via which a stimulation stimulus is given to the animal. The device includes an image capturing unit that has an image capturing range. The image capturing unit is constructed as a 3D-camera. One part of a surface of the animal is optically detected in the image capturing range and range pixels are collected in the area of the surface. The range pixels are provided and transmitted as pixel data. An evaluation unit is connected to the image capturing unit and collects the pixel data provided by the image capturing unit. The evaluation unit determines an active movement of the animal from the detected pixel data and provides and transmits the control result in the event of a determined movement of the animal.

Abstract: A method to capture data for animals to be slaughtered with an image capture unit that has an image capture range in which a surface of an animal to be slaughtered is captured visually and in which image points on the surface of the animal are captured. The capture unit provides image point data from the image points in transmittable form. An evaluation unit captures the point data and uses the point data to capture markings on the rear surface of the animal. The evaluation unit provides the markings as a storable capture result. Image points on the surface of the animal are captured in the image capture range. The points contain the markings. The capture unit transmits the point data. The evaluation unit captures the image point data. The method makes an association of an identification code for an animal with the point data. The evaluation unit provides the markings as a storable capture result with the code for the animal.

Abstract: An apparatus for classifying a food item of organic or irregular structure includes an image capture unit, a data input unit, and a data output unit. An evaluation unit is connected to said image capture unit, to said data input unit and to said data output unit. The image capture unit captures the food item as optical data and provides the optical data in transmittable form for transmission to the evaluation unit. The evaluation unit extracts feature values of the food item from the optical data. The feature values are combined to form a feature value tuple for the food item. The feature value tuple is automatically assignable to a feature value tuple range. The feature value tuple range is formed by one or more feature value tuples. The feature value tuple range is assigned a class. The data input unit is used to perform an assignment of the class to the feature value tuple range.

Abstract: A positioning apparatus for animal carcass halves, particularly slaughtered pig halves, arranges a cleaving plane to be aligned in parallel with an imaging plane of a camera. The positioning apparatus includes a rear guide element disposed movably at a level of an upper guide. In a region of an imaging position of a slaughtered pig half, the positioning apparatus includes rollers operating as pressure elements.

Abstract: The invention relates to a positioning apparatus for animal carcass halves, particularly slaughtered pig halves, for the parallel alignment of the cleaving plane with the imaging plane of a camera. According to the invention, the positioning apparatus with respect to the cleavage side (11) preferably comprises a rear guide element (4), which is disposed movably at the level of the upper guide (1) and which in the region of the imaging position of the slaughtered pig half (10) has rollers (8), (8.1; 8.2; 8.3) as pressure elements.

Abstract: A non-invasive method is described for identifying contours with complex structures having an error recognition rate tending towards zero, which method can be used to distinguish and identify features of a slaughtered animal body with respect to each other, said method being utilized on the basis of a characteristic piece in particular to determine, by means of image processing, data for calculating the muscle-meat percentage, the trade classification and the associated trade value and market value, and also to rate the quality of slaughtered animal bodies, taking into account legal requirements.

Abstract: A system for the visual display of cleaving process data for meat processing is described which renders it possible to precisely predict yields from individual parts after partitioning and to stipulate and map cutting guides for the purpose of providing specified yield data. The system as an integral part of an ERP (Enterprise Resource Planning) system has an application (1), at least one database (2), suitable interfaces (3—3.1; 3.2; 3.3; 3.4; 3.5) to a user interface (5), visual display device, such as a monitor (6), printer (7) and link (8) to an ERP system installed in an EDP system.

Abstract: The invention relates to an arrangement for using, in particular, ERP-applications of different clients in the form of, preferably, any particular mobile terminal, enabling data exchange with internal ERP-systems via the extranet and intranet. A user can select between different applications according to predetermined authorizations, which are not stored on the terminal, which can be initially guided according to the individual selection thereof and enables access to the internal ERP-systems. According to the invention, in a connection (6) between the mobile end terminal (1) to the ERP-system (4) via the intranet (10), a mobile ERP-server (3) having a special memory area (9) is located (6) between the connection (6) and the intranet (10).

Abstract: In a method for the non-invasive determination of the grade, trade value, market value and the quality of a slaughtered animal carcass; based on optical image processing; the method fulfills the conditions of the pertinent official regulations and acts and is rapid and cost-effective to implement; results data of weight percentages from single joint yields that have been obtained during the cutting tests of a sufficient number of slaughtered carcasses are correlated with the characteristic measured values and parameters determined from the ham and loin regions of both sides of a slaughtered animal carcass, taking into consideration the total weight, in order to obtain relationship data; during the slaughter operation, a simulation calculation is then carried out using the existing relationship data to estimate the single joint yields, taking into consideration the total weight of the two sides of a slaughtered animal carcass and the characteristic measured values and parameters that have been determined speci

Abstract: A non-invasive method is described for identifying contours with complex structures having an error recognition rate tending towards zero, which method can be used to distinguish and identify features of a slaughtered animal body with respect to each other, said method being utilised on the basis of a characteristic piece in particular to determine, by means of image processing, data for calculating the muscle-meat percentage, the trade classification and the associated trade value and market value, and also to rate the quality of slaughtered animal bodies, taking into account legal requirements.

Abstract: A method is described for determining in a non-invasive manner the trade class, the trade value, the market value and the quality of a body of a slaughtered animal on the basis of optical image processing, which method fulfils the conditions of the relevant official rules and regulations as well as functions accurately, rapidly and also in a cost effective manner.

Abstract: The invention relates to a method for evaluating the halves of slaughtered animals by optical image processing. A simple computerized method for sufficiently reliable evaluation is obtained even when the symmetry plane has been missed during cutting of the slaughtered animals due to cutting error by detecting two salient points and a straight line (5) in a photogrammetric reliable manner and by additionally calculating a parallel line (6) and a vertical line (7), wherein the end of the connecting bone (2) on the body side is used as first salient point and the central extension of the back fat (4) is used as a first direction.

Abstract: The invention describes a universal virtual marketplace (1) which maximises use in the national economy, reduces the detrimental aspects of e-commerce and, both for sellers (4) and purchasers (5), secures all necessary safeguards and rights in business transactions, wherein all active parties are connected to each other via a network (3).