PATENT CLAIM ANALYSIS

Application Number: 16072204
Application Type: Utility
Filing Date: 2018-07
Publication Date: 2019-01
Patent Classification: ["375", "316000"]

Abstract:
The present invention focuses a system and or a complex synthetic method, which considering any not orthogonal, independent plurality signals with limited frequency bandwidth, not greater than any f0 central frequency, allows to develop a resultant complex signal with limited frequency bandwidth, not greater than any relative f0 central frequency instead of the one sum of all the relative plurality independent not orthogonal signals frequency bandwidths. The resultant complex signal is the linear combination of orthogonal complex signals plurality. Each one of such orthogonal complex signals is characterized by a limited frequency bandwidth, not greater than any relative f0, and each is in bijection with the relative independent not orthogonal signal considered in the beginning

Claim (Index 1):
A method for canalizing and transferring a plurality of periodical physical signals represented in the time domain, t, by contemporary or not contemporary complex functions, SF l (t), with l=1, . . . L, and L is an integer number comprised in [1; \u221e] each occupying an independent frequency band, e.g. BB l =[(f 0 -f BBl ), f 0 ], such as electrical, electromagnetic, gravitational wave, analog and/or digital, mechanical oscillations, pressure waves, optical signals, thermodynamic signals, into a single complex signal, resultant of L orthogonal components each l-th being in bijection with the respective SF l (t), correlated at a frequency f 0  with a single occupied frequency bandwidth having width equal to the largest band among said bands BB l , BW RF =max[BB l ], wherein the following steps are executed shown in the  FIGS. 1 and 4 :\n A. acquiring if required the physical signals SF l (t) and transforming them into electrical signals by means of one or more transducers; B. extracting from each electrical signal of the previous step the relevant information content as modulation function m l (t); C. performing the Fourier Transform of m i (t), obtaining the function m l (j\u03a9); D. generating, for each modulation function m l (j\u03a9), a corresponding periodic digital signal P l (j\u03a9)=S l (j\u03a9) having carrier frequency f 0  and assigned modulation function m l (j\u03a9); E. generating, for each periodic digital signal P l (j\u03a9), a pair of signals in quadrature; F. generating, for each pair of signals in quadrature of step E, K*M pairs of signals PP lkm (j\u03a9)=Sk lm (j\u03a9), wherein Kand M are integer numbers comprised in [1; \u221e] and k=1, . . . , K as well as m=1, . . . , M each pair being generated through the following steps performed subsequently in any order or at the same time:\n performing KAI chirp modulations, each characterized by a corresponding frequency increment \u0394f lkm =[(l-1)+k/K](f 0 -f BBl ), which is the same for each of the M with k varying, in a time interval \u0394T=T 0  at a clock frequency e.g. f c \u22652LKM f 0 ; \n performing M phase linear modulations for each of K chirp modulations;\n each of K*M phase linear modulations is characterized by a own phase increment \u0394\u03d5_lkm=[l-1)+l(k-1)/K+(lm/M)]2\u03c0 with varying k and m, at a clock frequency e.g. f c \u22652LKM f 0 ; \n \n G. under sampling said pair of signals PP lkm (j\u03a9) at a frequency f 0  thus obtaining a pair of canalized signals PP 0 lm (j\u03a9) which by construction have a spatial phase (3-D) orthogonal to each of the other (L * K*M-1) signal pairs and moreover they are correlated to f 0 ; H. vector summing all the L*K*Mpairs of orthogonal PP 0 lm (j\u03a9) components thus obtaining a pair of LKM-dimension signals PP 0 (j\u03a9) occupying a frequency bandwidth BW RF \u2264f 0 ; I. sending the LKM-dimensional signal PP 0 (j\u03a9) to a signals emitter-transducer tuned to f 0 ; which performs whatever polarization.

Metadata:
- Claim Count in Document: 2.0
- Percentile: 95.0
- Lexical Diversity: 2.2963
- Patent Class: 375.0
- Transitional Phrase Type: none
- Component Type: 1
- Foreign Priority: True
- Related Applications: ['15632875', '12672633', '14916431', '10112869', '13201572']

Analysis Scores:
- 35 USC 101 Eligibility (BERT): 0.4383762297103992
- 35 USC 102 Novelty (BERT): 0.4950981004069081
- Combined Prediction Score: 0.4440484167800501
- Mean Citation Score: 160.955066
- Max Citation Score: 162.46588
- Similarity Product: 109.84970115328552

Labels:
- Claim Label 101: 1
- Claim Label 102: 1
- Claim Label 103: 1
- Claim Label 112: 1
- Combined Label: 1
- Label 101 Adjusted: 0

Dataset: test