METHOD OF VISUALLY INDICATING OPTIMAL COMMUNICATION TIMES
First Claim
Patent Images
1. A computer software product that includes a non-transitory storage medium readable by a processor, the non-transitory storage medium having stored thereon a set of instructions for performing a method of visually indicating optimal communication times, the instructions comprising:
- (a) a first set of instructions which, when loaded into main memory and executed by the processor, causes the processor to monitor at least one selected type of communication of an entity and record the number of times N the selected type of communication occurs within one hour of a particular sampling day, and to record the total number of times T the selected type of communication occurs within the sampling day;
(b) a second set of instructions which, when loaded into main memory and executed by the processor, causes the processor to calculate a percentage Pi for each of the i-th hours of the sampling day, wherein i is an integer ranging between 0 and 23, indicating an hourly percentage of the total number of times the selected type of communication occurred in the sampling day as Pi=(N/T)×
100;
(c) a third set of instructions which, when loaded into main memory and executed by the processor, causes the processor to display a selected set of the percentages Pi to a user;
(d) a fourth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a first unique color to any of the i hours where Pi is greater than 10;
(e) a fifth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a second unique color to any of the i hours where Pi is in the range 5≦
Pi≦
10;
(f) a sixth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a third unique color to any of the i hours where Pi is less than 5; and
(g) a seventh set of instructions which, when loaded into main memory and executed by the processor, causes the processor to display to the user a visual representation of a 24-hour period of the sampling day divided into 24 separate regions, each of the regions representing a corresponding one of the i hours, wherein each of the regions is displayed in the respective color of the corresponding i-th hour, wherein a region displayed in the first color indicates a desirable time period for communicating with the entity, a region displayed in the second color indicates a less desirable time period for communicating with the entity, and a region displayed in the third color indicates a least desirable time period for communicating with the entity.
0 Assignments
0 Petitions
Accused Products
Abstract
The method of visually indicating optimal communication times provides a visual indicator to a user of the most and least desirable times for communicating with a selected entity, such as an individual, a business or the like. At least one type of communication of the entity is monitored, and percentages of communications with each hour-long period of a 24 hour day are recorded. The types of communications may include e-mails, telephone calls, social media activity, and the like. Based on the percentages for each hour-long period, a color-coded scheme is applied to each of the hours in the 24-hour day. A visual representation of the 24 hour day is displayed to the user. Each hour-long period is displayed in its respective color, visually indicating to the user the most desirable and least desirable times to communicate with the entity.
33 Citations
15 Claims
-
1. A computer software product that includes a non-transitory storage medium readable by a processor, the non-transitory storage medium having stored thereon a set of instructions for performing a method of visually indicating optimal communication times, the instructions comprising:
-
(a) a first set of instructions which, when loaded into main memory and executed by the processor, causes the processor to monitor at least one selected type of communication of an entity and record the number of times N the selected type of communication occurs within one hour of a particular sampling day, and to record the total number of times T the selected type of communication occurs within the sampling day; (b) a second set of instructions which, when loaded into main memory and executed by the processor, causes the processor to calculate a percentage Pi for each of the i-th hours of the sampling day, wherein i is an integer ranging between 0 and 23, indicating an hourly percentage of the total number of times the selected type of communication occurred in the sampling day as Pi=(N/T)×
100;(c) a third set of instructions which, when loaded into main memory and executed by the processor, causes the processor to display a selected set of the percentages Pi to a user; (d) a fourth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a first unique color to any of the i hours where Pi is greater than 10; (e) a fifth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a second unique color to any of the i hours where Pi is in the range 5≦
Pi≦
10;(f) a sixth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a third unique color to any of the i hours where Pi is less than 5; and (g) a seventh set of instructions which, when loaded into main memory and executed by the processor, causes the processor to display to the user a visual representation of a 24-hour period of the sampling day divided into 24 separate regions, each of the regions representing a corresponding one of the i hours, wherein each of the regions is displayed in the respective color of the corresponding i-th hour, wherein a region displayed in the first color indicates a desirable time period for communicating with the entity, a region displayed in the second color indicates a less desirable time period for communicating with the entity, and a region displayed in the third color indicates a least desirable time period for communicating with the entity. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A computer software product that includes a non-transitory storage medium readable by a processor, the non-transitory storage medium having stored thereon a set of instructions for performing a method of visually indicating optimal communication times, the instructions comprising:
-
(a) a first set of instructions which, when loaded into main memory and executed by the processor, causes the processor to monitor at least one selected type of communication of an entity and record the number of times N the selected type of communication occurs within one hour of a particular sampling day, and to record the total number of times T the selected type of communication occurs within the sampling day; (b) a second set of instructions which, when loaded into main memory and executed by the processor, causes the processor to calculate a percentage Pi for of the i-th hours of the sampling day, wherein i is an integer ranging between 0 and 23, indicating an hourly percentage of the total number of times the selected type of communication occurred in the sampling day as Pi=(N/T)×
100;(c) a third set of instructions which, when loaded into main memory and executed by the processor, causes the processor to display a selected set of the percentages Pi to a user; (d) a fourth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to calculate a weighted percentage WPi for each of the i-th hours of the sampling day such that when k occurrences of the selected type of communication occur within the i-th hour, a weighted number Nw is calculated as Nw=1+0.25(k−
1), wherein the weighted percentage WPi for the i-th hour of the particular day is calculated as WPi=(Nw/T)×
100;(e) a fifth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a first color to any of the i hours where WPi is greater than 10; (f) a sixth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a second color to any of the i hours where WPi is in the range 5≦
Pi≦
10;(g) a seventh set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a third color to any of the i hours where WPi is less than 5; and (h) an eighth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to display to the user a visual representation of a 24-hour period for the sampling day divided into 24 separate regions, each of the regions representing a corresponding one of the i hours, wherein each of the regions is displayed in the respective color of the corresponding i-th hour, wherein a region displayed in the first color indicates a desirable time period for communicating with the entity, a region displayed in the second color indicates a less desirable time period for communicating with the entity, and a region displayed in the third color indicates a least desirable time period for communicating with the entity. - View Dependent Claims (7, 8, 9, 10)
-
-
11. A computer software product that includes a non-transitory storage medium readable by a processor, the non-transitory storage medium having stored thereon a set of instructions for performing a method of visually indicating optimal communication times, the instructions comprising:
-
(a) a first set of instructions which, when loaded into main memory and executed by the processor, causes the processor to monitor at least one selected type of communication of an entity and record the number of times N the selected type of communication occurs within one hour of a particular sampling day of a set of sampling days belonging to a sampling week, and to record the total number of times T the selected type of communication occurs within each of the sampling days of the sampling week; (b) a second set of instructions which, when loaded into main memory and executed by the processor, causes the processor to calculate a percentage Pi for of the i-th hours of each of the sampling days, wherein i is an integer ranging between 0 and 23, indicating an hourly percentage of the total number of times the selected type of communication occurred in the sampling day as Pi=(N/T)×
100;(c) a third set of instructions which, when loaded into main memory and executed by the processor, causes the processor to display a selected set of the percentages Pi to a user; (d) a fourth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to calculate a weighted percentage WPi for each of the i-th hours of each of the sampling days such that when k occurrences of the selected type of communication occur within the i-th hour, a weighted number Nw is calculated as Nw=1+0.25(k−
1), wherein the weighted percentage WPi for the i-th hour of the particular sampling day is calculated as WPi=(Nw/T)×
100;(e) a fifth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a first color to any of the i hours where WPi is greater than 10; (f) a sixth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a second color to any of the i hours where WPi is in the range 5≦
Pi≦
10;(g) a seventh set of instructions which, when loaded into main memory and executed by the processor, causes the processor to assign a third color to any of the i hours where WPi is less than 5; and (h) an eighth set of instructions which, when loaded into main memory and executed by the processor, causes the processor to display to the user a visual representation of a 24-hour period for each of the sampling days divided into 24 separate regions, each of the regions representing a corresponding one of the i hours, wherein each of the regions is displayed in the respective color of the corresponding i-th hour, wherein a region displayed in the first color indicates a desirable time period for communicating with the entity, a region displayed in the second color indicates a less desirable time period for communicating with the entity, and a region displayed in the third color indicates a least desirable time period for communicating with the entity. - View Dependent Claims (12, 13, 14, 15)
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeErik S. Labianca, Michael T. Donnelly
-
Original AssigneeErik S. Labianca, Michael T. Donnelly
-
InventorsDONNELLY, MICHAEL T., LABIANCA, ERIK S.
-
Application NumberUS14/504,387Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current715/738CPC Class CodesG06F 3/0484 for the control of specific...G06Q 10/103 Workflow collaboration or p...H04L 51/216 Handling conversation histo...H04L 67/535 Tracking the activity of th...
