Abstract:
A method for predictive network congestion control may include receiving network traffic data of a network. The network traffic data may be indicative of a current level of use or the network. A predicted future level of use at the location of the network may be identified based on the received network traffic data and based on past network traffic data for the location of the network. A recommendation to alter the future level of use for the location may be generated. The recommendation may include a type of alert to transmit to devices of users in the location of the network. The recommendation may be transmitted to a network policy management server of the network
Abstract:
A crop residue chopping and spreading arrangement is described with a straw chopper (60) and an impeller blower (100) arranged downstream of the straw chopper (60). The impeller blower comprises impeller paddles (102) that can be set in rotation about a rotational axis (108) and an end-side cover (128) arranged directly adjacent to the impeller paddles (102). The impeller paddles (102) receive crop residue in a take-up region from the straw chopper (60) and discharge it in a discharge region onto a field. The end-side cover (128) is provided in front of the discharge region, with respect to the direction of rotation of the impeller paddles (102), with an opening (194) through which, during operation, the impeller paddles (102) take in air and discharge it in the discharge region, wherein this arrangement increases the throwing range of the impeller blower (100).
Abstract:
A harvested material residue chopping and distributing arrangement for a combine (10) is provided having a straw chopper (60) and two distribution blowers (100) between which a guide element (150) is arranged for distributing the harvested material residue flow between the two distribution blowers (100). The tip (156) of the guide element (150) is positioned on the circumferential circle of the straw chopping blades (96) such that the blades (96) remove harvested material residue from the tip (156) during operation.
Abstract:
A combine (10) comprises a crop processing device (26) having a straw outlet (62), a beater (64) assigned to the straw outlet (62) of the crop processing device (26) and a straw chopper (60). An overshot drum conveyor (68) follows the beater (64). A single, pivotable flap (80) is located downstream the drum conveyor (68) and movable between a chopping position in which it deflects the straw downward into the straw chopper (60) and a swath laying position in which it lets the straw pass to a slope (88) behind the straw chopper (60). The flap (80) is pivoted at its forward end adjacent and above the drum conveyor (68) and has a shape matching to the circumference of the drum conveyor (68).
Abstract:
A technique for cell-identity detection is provided. In one method embodiment, at least one cell-identity in a cellular telecommunication network is determined. The method comprises the steps of receiving a synchronization signal, calculating first correlations and second correlations as well as determining the at least one cell-identity. The received synchronization signal includes a first partial signal and a second partial signal. The first correlations are calculated between the first partial signal and first reference signals, each of which indicates one or more first cell-identities. The second correlations are calculated between the second partial signal and second reference signals, each of which indicates one or more cell-identities out of the first cell-identities. The second reference signals are selected depending on the first correlations. The cell-identity is determined based on the second correlations. The complexity for cell-identity detection is reduced by the technique.
Abstract:
The invention relates to a crop residue chopping-and-distributing arrangement for a combine, with a straw chopper (60) and two distribution blowers (100) arranged laterally alongside one another, on the periphery of which is provided a respective first shield (144), adjustable about axis of rotation (108) for modifying the distribution characteristics, that can be brought into an active position. It is proposed that the first shields (144) are respectively mounted on a rotary holder (176) rotatable about axis of rotation (84) of the associated distribution blower (100) and additionally carrying a second shield (146), which has a smaller dimension in the circumferential direction than first shield (144), so that second shield (146) can selectively be brought into an active position instead of first shield (144).
Abstract:
The invention concerns a harvested crop residue chopper and distribution arrangement for a combine (10) with a straw chopper (60) with a rotor (74) that can be brought into rotation about a horizontal axis (98) with chopper blades (76) fastened thereto that define an outer envelope (96), and with at least one impeller blower (82) arranged downstream of the straw chopper (60) with impeller blades (84) that can rotate about an axis of rotation (88) that extends vertically, in which the impeller blades (84) are provided with outer edges (94) that conform to the envelope (96) of the chopper knives (76) and follow it very closely and are not in contact with it.
Abstract:
A crop residue chopping and spreading arrangement is described with a straw chopper (60) and an impeller blower (100) arranged downstream of the straw chopper (60). The impeller blower comprises impeller paddles (102) that can be set in rotation about a rotational axis (108) and an end-side cover (128) arranged directly adjacent to the impeller paddles (102). The impeller paddles (102) receive crop residue in a take-up region from the straw chopper (60) and discharge it in a discharge region onto a field. The end-side cover (128) is provided in front of the discharge region, with respect to the direction of rotation of the impeller paddles (102), with an opening (194) through which, during operation, the impeller paddles (102) take in air and discharge it in the discharge region, wherein this arrangement increases the throwing range of the impeller blower (100).
Abstract:
The invention relates to an infrared measuring device, especially for the spectrometry of aqueous systems. Said device comprises at least one measuring unit, especially a measuring cell, also comprising at least one ATR-body and at least one infrared light source. The measuring unit contains at least one ATR-body which comprises at least two planar, substantially parallel limiting surfaces and which is transparent with respect to measuring radiation and which has an index of refraction which is greater than that of the medium which is arranged next to at least one limiting surface and which is to be examined, especially larger or equal to 1.5. The IR-measuring radiation on at least one of the planar, parallel limiting surfaces of the ATR-body can be totally reflected in an attenuated manner by at least six times.
Abstract:
The invention concerns a harvested crop chopper remains-and-distribution arrangement for a combine (10) with a straw chopper (60) and an impeller blower (80) arranged downstream of the straw chopper (60), that includes at least one impeller blade (82) arranged to rotate in a direction of rotation about an axis (84) for the distribution across a field of the harvested crop remains provided by the straw chopper (60). An axially outer region (104, 106,114) of the impeller blade (82) leading in the direction of rotation is curved or angled in the direction of rotation. The axial dimension of the axially outer region (106) of the impeller blade (82) increases toward the outside in the radial direction. The impeller blade (82) is provided with a region (104) adjacent to the axial outer region (106) of the impeller blade, whose axial dimension decreases toward the outside in the radial direction and that extends in the radial direction and that is flat or is curved in a concave shape towards the front in the radial direction and is flatter than the outer region (106).