Abstract: A sewer cleaning machine includes a frame, a drum rotatably supported by the frame, and a motor supported by the frame and coupled to the drum. The drum includes a cable that is selectively extendable out of the drum. The motor is operable to rotate the drum. The drum is configured to engage a surface to facilitate moving the sewer cleaning machine along the surface.

Abstract: Some embodiments described in this disclosure are directed to one or more electronic devices that facilitate control of playback of a live content item displayed in a playback user interface. Some embodiments described in this disclosure are directed to one or more electronic devices that facilitate display of key content corresponding to a live content item in a key content user interface. Some embodiments described in this disclosure are directed to one or more electronic devices that facilitate concurrently display of multiple content items in a Multiview user interface. Some embodiments described in this disclosure are directed to one or more electronic devices that facilitate display of insights corresponding to a content item displayed in a playback user interface.

Abstract: An approach is provided for detecting a malicious activity on a computer system. First process trees are identified for computer processes that have been executed on a computer system. Each of the first process trees are vectorized. The vectorized first process trees are associated with respective labels. Each label represents an amount by which a respective vectorized process tree reflects the malicious activity. An artificial neural network is trained by using the vectorized first process trees and the associated labels as training input. After the training of the artificial neural network is completed, second process trees for currently executing computer processes are vectorized and provided as input vectors to the artificial neural network. Responsive to the artificial neural network providing an output indicating that a combination of the input vectors indicates the malicious activity, a remedial action is performed.

Abstract: An approach is provided for detecting a malicious activity on a computer system. First process trees are identified for computer processes that have been executed on a computer system. Each of the first process trees are vectorized. The vectorized first process trees are associated with respective labels. Each label represents an amount by which a respective vectorized process tree reflects the malicious activity. An artificial neural network is trained by using the vectorized first process trees and the associated labels as training input. After the training of the artificial neural network is completed, second process trees for currently executing computer processes are vectorized and provided as input vectors to the artificial neural network. Responsive to the artificial neural network providing an output indicating that a combination of the input vectors indicates the malicious activity, a remedial action is performed.

Abstract: A process for treating particulate material containing heavy metal generated during a manufacturing process is disclosed. The process includes providing particulate material containing heavy metal within an enclosed area and mixing an additive of calcium silicate forming material with the particulate material in the enclosed area to create an additive-particulate material. The additive-particulate material can be passed into a waste collection device located downstream of the enclosed area. The calcium silicate forming material can be provided as particles with a particle size of minus 50 to plus 325 mesh. An additional aspect of the invention is an additive for use in such a process for treating metallic oxide impregnated dust, which has a particle size of plus 325 mesh and consists essentially of calcium silicate forming material.

Abstract: A process for treating particulate material containing heavy metal generated during a manufacturing process is disclosed. The process includes providing particulate material containing heavy metal within an enclosed area and mixing an additive of calcium silicate forming material with the particulate material in the enclosed area to create an additive-particulate material. The additive-particulate material can be passed into a waste collection device located downstream of the enclosed area. The calcium silicate forming material can be provided as particles with a particle size of minus 50 to plus 325 mesh. An additional aspect of the invention is an additive for use in such a process for treating metallic oxide impregnated dust, which has a particle size of plus 325 mesh and consists essentially of calcium silicate forming material.

Abstract: A process for treating particulate material containing heavy metal generated during a manufacturing process is disclosed. The process includes providing particulate material containing heavy metal within an enclosed area and mixing an additive of calcium silicate forming material with the particulate material in the enclosed area to create an additive-particulate material. The additive-particulate material can be passed into a waste collection device located downstream of the enclosed area. The calcium silicate forming material can be provided as particles with a particle size of minus 50 to plus 325 mesh. An additional aspect of the invention is an additive for use in such a process for treating metallic oxide impregnated dust, which has a particle size of plus 325 mesh and consists essentially of calcium silicate forming material.

Abstract: A process for treating particulate material containing heavy metal generated during a manufacturing process is disclosed. The process includes providing particulate material containing heavy metal within an enclosed area and mixing an additive of calcium silicate forming material with the particulate material in the enclosed area to create an additive-particulate material. The additive-particulate material can be passed into a waste collection device located downstream of the enclosed area. The calcium silicate forming material can be provided as particles with a particle size of minus 50 to plus 325 mesh. An additional aspect of the invention is an additive for use in such a process for treating metallic oxide impregnated dust, which has a particle size of plus 325 mesh and consists essentially of calcium silicate forming material.