PATENT CLAIM ANALYSIS

Application Number: 16381961
Application Type: Utility
Filing Date: 2019-04
Publication Date: 2019-10
Patent Classification: ["455", "456100"]

Abstract:
Methods of creating an indoor confidence level comprising: receiving a location and location accuracy value from or for a device, wherein the location accuracy value is equated to a location accuracy circle; comparing the location and location accuracy circle to a map of known buildings and outdoor locations; and defining an indoor confidence level based upon the percent of overlap of the accuracy radius to a building on said map; and methods of defining an optimization priority among a set of collected data points for network connectivity.

Claim (Index 16):
The method of  claim 14  wherein the measurement comprises calculating:\n Priority (%)=Priority BASE +Priority INCREMENT \u2003\u2003[1] \n Where: \n Priority BASE = Any \ue89e \ue89e ( 10 \ue89e % , \ue89e 20 \ue89e % , \ue89e 30 \ue89e % , \ue89e 40 \ue89e % , \ue89e 50 \ue89e % , \ue89e 60 \ue89e % , \ue89e 70 \ue89e % , \ue89e 80 \ue89e % , \ue89e 90 \ue89e % ) [ 2 ] \ue89e Priority INCREMENT = 0.1 \u00d7 abs \ue8a0 ( \u0394 ) - abs \ue8a0 ( \u0394 MIN ) abs \ue8a0 ( \u0394 MAX ) - abs \ue8a0 ( \u0394 MIN ) \ue89e \ue89e such \ue89e \ue89e that \ue89e : [ 3 ] \ue89e when \ue89e \ue89e \u0394 = \u0394 MIN \ue89e \ue89e then \ue89e \ue89e Priority INCREMENT = 0 \ue89e % [ 4 ] \ue89e when \ue89e \ue89e \u0394 = \u0394 MAX \ue89e \ue89e then \ue89e \ue89e Priority INCREMENT = 10 \ue89e % [ 5 ] \ue89e \u0394 = RS \ue89e \ue89e SNR ACTUAL - RS \ue89e \ue89e SNR IDEAL [ 6 ] Let: a) Average RS SNR ACTUAL  be directly proportional to Average RS SNR ACTUAL  as a linear function y=m*x+a and defined as:\n Average RS SNR ACTUAL =m AVERAGE RS SNR \u00d7RSRP ACTUAL +a AVERAGE RS SNR \u2003\u2003[7] \n b) RS SNR IDEAL  be equal to RSRP ACTUAL  offset by 125.2 defined as:\n RS SNR IDEAL =RSRP ACTUAL +125.2\u2003\u2003[8] \n c) Average RS SNR ACTUAL  have a slope smaller than RS SNR IDEAL  defined as:\n m AVERAGE RS SNR ACTUAL >m RS SNR IDEAL \u2003\u2003[9] \n d) RS SNR ACTUAL  be between RS SNR Threshold1  (point y 2  on y-axis) and RS SNR Threshold2  (point y 3  on y-axis) defined as:\n RS SNR( y 2 )=RS SNR Threshold1 \u2264RS SNR ACTUAL \u2003\u2003[10] \n and \n RS SNR ACTUAL <RS SNR( y 3 )=RS SNR Threshold2 \u2003\u2003[11] \n e) RSRP ACTUAL  be between RSRP Threshold1  (point x 1  on x-axis) and RSRP Threshold2  (point x 3  on x-axis) defined as:\n RSRP( x 1 )=RSRP Threshold1 \u2264RSSP ACTUAL \u2003\u2003[12] \n and \n RSRP ACTUAL <RSRP( x 3 )=RSRP Threshold2 \u2003\u2003[13] \n Then: The difference between RS SNR ACTUAL and RS SNR IDEAL  is defined as \u0394:\n \u0394=RS SNR ACTUAL \u2212RS SNR IDEAL =RS SNR ACTUAL \u2212RSRP ACTUAL \u2212125.2\u2003\u2003[14] \n In combination with [8], \u0394 can be simplified as:\n \u0394=RS SNR ACTUAL \u2212RSRP ACTUAL \u2212125.2\u2003\u2003[15] \n The minimum distance (\u0394 MIN ) from RS SNR ACTUAL to RS SNR IDEAL  is at point (x 2 , y 3 ) on line Average RS SNR ACTUAL , defined as:\n \u0394 MIN =\u0394( x 2 ,y 3 )=Average RS SNR ACTUAL ( x 2 )\u2212RS SNR IDEAL ( x 2 )\u2003\u2003[16] \n Using the definition in [7]: Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL \ue8a0 ( x 2 ) = m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL \u00d7 RSRP \ue8a0 ( x 2 ) + a Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL = RS \ue89e \ue89e SNR \ue8a0 ( y 3 ) [ 17 ] \ue89e RSRP \ue8a0 ( x 2 ) = RS \ue89e \ue89e SNR \ue8a0 ( y 3 ) - a Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL [ 18 ] Using the definition in [8]:\n RS SNR IDEAL ( x 2 )=RSRP( x 2 )+125.2\u2003\u2003[19] \n Combining terms found in [17], [18] and [19] into [16] results in: \u0394 MIN = RS \ue89e \ue89e SNR \ue89e \ue89e ( y 3 ) - RS \ue89e \ue89e SNR \ue89e \ue89e ( y 3 ) - a Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL - 125.2 [ 20 ] Using the limit defined in [10] and re-arranging [20] results in: \u0394 MIN = m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL \u00d7 ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - 125.2 ) - ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - a Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL ) ( m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL ) [ 21 ] The maximum distance (\u0394 MAX ) from RS SNR ACTUAL to RS SNR IDEAL  is at point (x 3 , y 2 ), defined as:\n \u0394 MAX =y 2 \u2212RS SNR IDEAL ( x 3 )\u2003\u2003[22] \n Using the relationship between RS SNR IDEAL  and RSRP ACTUAL as defined by [8] at point (x 3 , y 2 ) and the limit of RS SNR ACTUAL  [10] and RSRP ACTUAL  [13] results in:\n RS SNR IDEAL ( x 3 )=RSRP ACTUAL ( x 3 )+125.2\u2003\u2003[23] \n \u0394 MAX =RS SNR Threshold1 \u2212RSRP Threshold2 \u2212125.2\u2003\u2003[24] \n Yielding: Combining terms found in [15], [21] and [24] into [3] results in: Priority \ue89e \ue89e ( % ) = Priority BASE + 0.1 \u00d7 abs ( abs \ue8a0 ( RS \ue89e \ue89e SNR ACTUAL - RSRP ACTUAL - 125.2 ) - m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL \u00d7 ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - 125.2 ) - ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - a Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL ) m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL ) abs ( abs ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 1 - RSRP Threshold \ue89e \ue89e 2 - 125.2 ) - m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL \u00d7 ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - 125.2 ) - ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - a Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL ) m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL ) [ 25 ] With numerator and denominator simplification in [25]: Priority \ue89e \ue89e ( % ) = Priority BASE + 0.1 \u00d7 ( abs ( m RS \ue89e \ue89e SNR AVERAGE \u00d7 ( RS \ue89e \ue89e SNR ACTUAL - RSRP ACTUAL - 125.2 ) ) - abs ( m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL \u00d7 ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - 125.2 ) - ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - a Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL ) ) ( abs ( m RS \ue89e \ue89e SNR AVERAGE \u00d7 ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 1 - RSRP Threshold \ue89e \ue89e 2 - 125.2 ) ) - abs ( m Avearge \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL \u00d7 ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - 125.2 ) - ( RS \ue89e \ue89e SNR Threshold \ue89e \ue89e 2 - a Average \ue89e \ue89e RS \ue89e \ue89e SNR ACTUAL ) ) [ 26 ]

Metadata:
- Claim Count in Document: 10.0
- Percentile: 100.0
- Lexical Diversity: 1.75472
- Patent Class: 455.0
- Transitional Phrase Type: none
- Component Type: 0
- Foreign Priority: False
- Related Applications: ['15235802', '15700357', '13620736', '10595985', '15336117']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.6769452492468017
- 35 USC 102 Novelty (BERT): 0.5081677851651779
- Combined Prediction Score: 0.6600675028386392
- Mean Citation Score: 140.47936199999998
- Max Citation Score: 156.97821000000005
- Similarity Product: 83.37036553660516

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 1

Dataset: test