US2014156672A1PendingUtilityA1

Space-time-nodal type signal processing

47
Assignee: SPACE TIME INSIGHTPriority: May 3, 2011Filed: Jan 21, 2014Published: Jun 5, 2014
Est. expiryMay 3, 2031(~4.8 yrs left)· nominal 20-yr term from priority
Inventors:Krishna Kumar
G06F 16/2272H04L 67/12G06F 17/30336
47
PatentIndex Score
0
Cited by
0
References
0
Claims

Abstract

Example methods, apparatuses, or articles of manufacture are disclosed that may be implemented using one or more computing devices or platforms to facilitate or otherwise support one or more processes or operations associated with a space-time-node engine signal processing.

Claims

exact text as granted — not AI-modified
1 - 53 . (canceled) 
     
     
         54 . A method comprising:
 electronically implementing a space-time-node engine signal processing scheme to support generating one or more STING signal packets, said scheme comprising:
 capturing a spatial-temporal-nodal relationship between one or more characteristics of one or more sampled signals; and 
 partitioning said one or more sampled signals based, at least in part, on said captured spatial-temporal-nodal relationship. 
   
     
     
         55 . The method of  claim 54 , wherein said capturing said spatial-temporal-nodal relationship comprises determining one or more changing characteristics of said one or more characteristics of said one or more sampled signals. 
     
     
         56 . The method of  claim 55 , wherein said determining said one or more changing characteristics is based, at least in part, on at least one of the following: a pattern estimation evaluation; a trend estimation evaluation; or any combination thereof. 
     
     
         57 . The method of  claim 55 , and further comprising prioritizing said one or more characteristics of said one or more sampled signals based, at least in part, on said one or more determined changing characteristics. 
     
     
         58 . The method of  claim 54 , wherein said partitioning said one or more sampled signals comprises representing said one or more signals within an n-dimensional signal space. 
     
     
         59 . The method of  claim 54 , wherein said capturing said spatial-temporal-nodal relationship comprises determining one or more dominant attributes of at least one of said one or more characteristics of said one or more sampled signals. 
     
     
         60 . The method of  claim 59 , wherein said one or more dominant attributes are determined based, at least in part, on a degree of cardinality between said one or more characteristics of said one or more sampled signals. 
     
     
         61 . The method of  claim 54 , wherein said one or more partitioned sampled signals are characterized, at least in part, via one or more signal values indicative of a type of processing to be used, at least in part, with said one or more sampled signals. 
     
     
         62 . The method of  claim 61 , wherein said one or more signal values are represented via one or more signal registers. 
     
     
         63 . The method of  claim 62 , wherein said one or more signal registers comprises one or more 8-bit wide registers. 
     
     
         64 . The method of  claim 62 , wherein at least one of said one or more signal registers comprises one or more binary signal values representing at least one of the following: a payload information; at least one of said one or more characteristics; an attribute; a literal; a script; or any combination thereof. 
     
     
         65 . The method of  claim 61 , wherein said type of processing comprises at least one of the following: spatial-type processing; temporal-type processing; nodal-type processing; or any combination thereof. 
     
     
         66 . The method of  claim 54 , wherein said partitioning said one or more sampled signals is performed, at least in part, in connection with one or more class-type adapters. 
     
     
         67 . The method of  claim 66 , wherein said one or more class-type adapters comprises one or more STING adapters. 
     
     
         68 . The method of  claim 54 , and further comprising specifying said captured spatial-temporal-nodal relationship in one or more electronic files. 
     
     
         69 . The method of  claim 68 , wherein said one or more electronic files comprises at least one of the following: a configuration-type file; an initialization-type file; a manifest-type file; an ecosystem-type file; or any combination thereof. 
     
     
         70 . The method of  claim 54 , wherein said one or more characteristics are sampled from one or more signal acquisition points. 
     
     
         71 . An apparatus comprising:
 a computing platform comprising at least one processor coupled to at least one memory to:
 condition one or more spatial-temporal-nodal attributes of one or more sensor signals to be capable of being processed in a STING format. 
   
     
     
         72 . The apparatus of  claim 71 , wherein said one or more spatial-temporal-nodal attributes are represented via one or more signal sample values. 
     
     
         73 . The apparatus of  claim 72 , wherein said one or more signal sample values comprises at least one of the following: one or more measured signal sample values; one or more registered signal sample values; one or more digital numeric signal sample values; or any combination thereof. 
     
     
         74 . The apparatus of  claim 71 , wherein said one or more sensor signals comprises one or more momentized signals acquired from a variety of sources in a variety of formats. 
     
     
         75 . The apparatus of  claim 71 , wherein said one or more sensor signals is acquired from at least one signal acquisition point. 
     
     
         76 . The apparatus of  claim 71 , wherein said computing platform to said condition said one or more spatial-temporal-nodal attributes further to determine a relationship between said one or more spatial-temporal-nodal attributes. 
     
     
         77 . The apparatus of  claim 76 , wherein said relationship is determined based, at least in part, on one or more dominant metrics. 
     
     
         78 . The apparatus of  claim 77 , wherein said dominant metric comprises one or more signal sample values having a higher degree of cardinality. 
     
     
         79 . The apparatus of  claim 78 , wherein said STING format comprises said one or more spatial-temporal-nodal attributes to at least partially anticipate one or more user preferences. 
     
     
         80 . The apparatus of  claim 71 , wherein said computing platform to said condition said one or more spatial-temporal-nodal attributes further to determine whether at least one of said one or more spatial-temporal-nodal attributes is represented via one or more changing sample signal values. 
     
     
         81 . An article comprising:
 a storage medium having instructions stored thereon executable by a special purpose computing platform to:
 electronically apply a space-time-node engine signal processing scheme to support generating a STING signal packet to:
 capture a spatial-temporal-nodal relationship between one or more characteristics of one or more sampled signals; and 
 partition said one or more sampled signals based, at least in part, on said captured spatial-temporal-nodal relationship. 
 
   
     
     
         82 . The article of  claim 81 , wherein said one or more partitioned sampled signals are characterized, at least in part, via one or more signal values indicative of a type of processing to be used, at least in part, with said one or more sampled signals.

Cited by (0)

No later patents cite this yet.

References (0)

No backward citations on record.