FISHER PAYKEL

Brand Owner (click to sort) Address Description
F&P FISHER AND PAYKEL HEALTHCARE LIMITED 15 Maurice Paykel Place East Tamaki Auckland 2013 New Zealand FISHER AND PAYKEL;Surgical apparatus, namely, humidifiers for use in laparoscopic surgery; respiratory apparatus and instruments, namely, medical equipment for the purpose of delivering humidified air or oxygen during laparoscopic surgery; medical apparatus and instruments, namely, respirators, artificial respiration apparatus and humidifiers; apparatus for medical use, namely, respiratory humidifiers; medical apparatus, namely, ventilation and non-invasive ventilation apparatus and instruments; medical apparatus and instruments for continuous positive airway pressure also known as CPAP and bi-level therapy; medical apparatus, namely, humidifiers and meters for CPAP and bi-level therapy; medical apparatus, namely, sleep apnea monitors; medical apparatus, namely, facial masks, [ oral masks, ] nasal masks, [ mouth pieces, ] nasal guards, facial guards, headgear, all being for use by patients for medical purposes; medical apparatus, namely, breathing circuits; [ incubators for babies; infant warmers used for medical equipment during medical procedures; nerve stimulators; patient monitors for anesthesia; patient medical monitors, namely, monitors and sensors for body temperature; ] resuscitators; parts and fittings for all the aforementioned goods;
FISHER & PAYKEL Fisher & Paykel Healthcare Limited 15 Maurice Paykel Place East Tamaki Auckland 2013 New Zealand FISHER AND PAYKEL;[ VENTILATORS, ] RESPIRATORY CIRCUITS, RESPIRATORY MASKS AND CONTINUOUS POSITIVE AIRWAY PRESSURE EQUIPMENT;
 

Where the owner name is not linked, that owner no longer owns the brand

   
Technical Examples
  1. A class of non data-aided cyclic based robust estimators for frequency offset estimation of multi-carrier systems is disclosed. The use of sufficient statistics provides a minimum variance unbiased (MVU) estimate of the frequency offset under complete knowledge of timing offset error. The Neyman-Fisher factorization theorem and Rao-Blackwell-Lehmann-Scheffe theorem are used to identify the sufficient statistic and appropriate mapping functions. It is shown that there is but one function of the sufficient statistics which results in the minimum variance estimate among the possible class of cyclic-based estimators. Also, a moment estimator of frequency offset is provided to obtain a consistent estimate of carrier offset under uncertain symbol timing error. The moment estimator does not rely on any probabilistic assumptions. Thus, its performance is insensitive to the distribution of the additive noise. A unified structure characterizing both the MVU and moment estimators, as well as a maximum likelihood estimator of a related, copending application is disclosed.