Abstract: A first workflow item grouping container and a second workflow item grouping container are a part of a collection of workflow item grouping containers organizing an end-to-end multi-process workflow solution. An identification and execution condition of the first workflow item grouping container and an identification and execution condition of the second workflow item grouping container are received. A specification of one or more workflow items belonging to the first workflow item grouping container and a specification of one or more workflow items belonging to the second workflow item grouping container are received. Each of the one or more workflow items belonging to the first and second workflow item grouping containers has an individually configurable execution condition and corresponds to a different individual activity of the end-to-end multi-process workflow solution.

Abstract: A user modifiable user interface representation of a first workflow item grouping container and a second workflow item grouping container are provided. The first and second item grouping containers are part of a collection of workflow item grouping containers organizing a design of an end-to-end multi-process workflow solution. An interactive user interface representation of a first workflow item belonging to the first workflow item grouping container and a second workflow item belonging to the second workflow item grouping container are provided. The first and second workflow items correspond to different individual activities of the end-to-end multi-process workflow solution. A user is able to interact with the interactive user interface representation of the first workflow item to modify a workflow property of the first workflow item and to interact with the interactive user interface representation of the second workflow item to modify a workflow property of the second workflow item.

Abstract: A first workflow item grouping container and a second workflow item grouping container are a part of a collection of workflow item grouping containers organizing an end-to-end multi-process workflow solution. An identification and execution condition of the first workflow item grouping container and an identification and execution condition of the second workflow item grouping container are received. A specification of one or more workflow items belonging to the first workflow item grouping container and a specification of one or more workflow items belonging to the second workflow item grouping container are received. Each of the one or more workflow items belonging to the first and second workflow item grouping containers has an individually configurable execution condition and corresponds to a different individual activity of the end-to-end multi-process workflow solution.

Abstract: A user modifiable user interface representation of a first workflow item grouping container and a second workflow item grouping container are provided. The first and second item grouping containers are part of a collection of workflow item grouping containers organizing a design of an end-to-end multi-process workflow solution. An interactive user interface representation of a first workflow item belonging to the first workflow item grouping container and a second workflow item belonging to the second workflow item grouping container are provided. The first and second workflow items correspond to different individual activities of the end-to-end multi-process workflow solution. A user is able to interact with the interactive user interface representation of the first workflow item to modify a workflow property of the first workflow item and to interact with the interactive user interface representation of the second workflow item to modify a workflow property of the second workflow item.

Abstract: The invention provides a system to better detect the onset of congestive heart failure (CHF). The system consists of two primary components—the CHF Index Graph (CHFIG) and a body-worn sensor for measuring the necessary parameters—that correctly measure and analyze a set of parameters related to CHF. The CHFIG typically consists of 7 or 8 unique axes, each corresponding to a different CHF-related parameter. Each axis is normalized and scaled so that the plotted values trend outwards as a patient's trajectory towards CHF worsens. Titus, the area of a region constructed from the plotted values of the parameters increases as the values move further away from the center of the graph; this indicates the patient is trending towards CHF. Conversely, a healthy patient's parameters will be clustered relatively close to the center of the graph, creating a region with a much smaller area.

Abstract: The invention provides a system to better detect the onset of congestive heart failure (CHF). The system consists of two primary components—the CHF Index Graph (CHFIG) and a body-worn sensor for measuring the necessary parameters—that correctly measure and analyze a set of parameters related to CHF. The CHFIG typically consists of 7 or 8 unique axes, each corresponding to a different CHF-related parameter. Each axis is normalized and scaled so that the plotted values trend outwards as a patient's trajectory towards CHF worsens. Thus, the area of a region constructed from the plotted values of the parameters increases as the values move further away from the center of the graph; this indicates the patient is trending towards CHF. Conversely, a healthy patient's parameters will be clustered relatively close to the center of the graph, creating a region with a much smaller area.

Abstract: The invention provides a system to better detect the onset of congestive heart failure (CHF). The system consists of two primary components—the CHF Index Graph (CHFIG) and a body-worn sensor for measuring the necessary parameters—that correctly measure and analyze a set of parameters related to CHF. The CHFIG typically consists of 7 or 8 unique axes, each corresponding to a different CHF-related parameter. Each axis is normalized and scaled so that the plotted values trend outwards as a patient's trajectory towards CHF worsens. Thus, the area of a region constructed from the plotted values of the parameters increases as the values move further away from the center of the graph; this indicates the patient is trending towards CHF. Conversely, a healthy patient's parameters will be clustered relatively close to the center of the graph, creating a region with a much smaller area.