SINGULAR EM

Brand	Owner	Address	Description
SINGULAREM	SingularEM	PO BOX 361 Baker TX 77413	SINGULAR EM;Geological and geophysical scientific and technological research services, namely, using electromagnetic fields, acquired and/or simulated in one or in a combination of possible settings, such as in the air, on land, beneath the land surface, on the water surface or near the water surface, on the seafloor or near the seafloor, and/or in one or several boreholes for the purpose of reconstruction of subsurface resistivity to detect, evaluate, or monitor hydrocarbon reservoirs, mineral deposits, or any other subsurface resistivity anomalies and targets, and perform geological and geophysical research and design services relating thereto; industrial analysis and geological and geophysical research services, namely, using recorded and/or simulated electromagnetic fields solely or jointly with other geophysical and geological data for reconstruction of subsurface resistivity; design and development of computer hardware and software featuring new hardware instruments and electromagnetic data acquisition schemes; and development of modeling, processing, inversion, and interpretation software, all the aforementioned services offered prior to drilling, during drilling, or after drilling for hydrocarbons, or during any other exploration and production activities, or during any other application of geophysical electromagnetic methods;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A character recognizer recognizes a handwritten input character. A sequence of points in two dimensional space representative of a stroke trajectory forming the input character is gathered. An input Directed Acyclic Graph is built with nodes representative of singular points at the beginning, end, and along the trajectory of the input character and with edges between nodes representative of an edge trajectory formed by the sequence of points of the input character between the singular points. Each edge in the input graph is described based on the shape, orientation and pen lift of the edge trajectory that the edge represents. The input graph is evaluated against model graphs, which are also Directed Acyclic Graphs, for all possible characters to find a path through a model graph that produces a best path similarity score with a corresponding path through the input graph. The input character is identified as an answer character represented by the model graph producing the best path similarity score. Each model graph for a reference character has nodes representative of singular points at the beginning, end, and along the stroke trajectory of the reference character. Edges between nodes in the model graph are representative of an edge trajectory formed by the sequence of points of the reference character between the singular points. Further each edge of the model graph has an "i" vector, a "j" vector and a "k" vector, and the "i,j,k" vectors indicate similarity values associated with the edge trajectory of the reference character and typical shapes, shape rotation and pen lift, respectively.