Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Weighted pseudo S-asymptotically Bloch type periodic solutions for a class of mean field stochastic fractional evolution equations
View through CrossRef
This paper concerns a class of mean-field stochastic fractional evolution equations. Initially, we establish some auxiliary results for weighted pseudo $S$-asymptotically Bloch type periodic stochastic processes. Without a compactness assumption on the resolvent operator and some additional conditions on forced terms, the existence and uniqueness of weighted pseudo $S$-asymptotically Bloch type periodic mild solutions on the real line of the referred equation are obtained. In addition, we show the existence of weighted pseudo $S$-asymptotically Bloch type periodic mild solutions with sublinear growth assumptions on the drift term and compactness conditions. Finally, an example is provided to verify the main outcomes.
MKD Publishing House
Title: Weighted pseudo S-asymptotically Bloch type periodic solutions for a class of mean field stochastic fractional evolution equations
Description:
This paper concerns a class of mean-field stochastic fractional evolution equations.
Initially, we establish some auxiliary results for weighted pseudo $S$-asymptotically Bloch type periodic stochastic processes.
Without a compactness assumption on the resolvent operator and some additional conditions on forced terms, the existence and uniqueness of weighted pseudo $S$-asymptotically Bloch type periodic mild solutions on the real line of the referred equation are obtained.
In addition, we show the existence of weighted pseudo $S$-asymptotically Bloch type periodic mild solutions with sublinear growth assumptions on the drift term and compactness conditions.
Finally, an example is provided to verify the main outcomes.
Related Results
Relationship Domain of Form Six Teachers Thinking in Teaching with External Factors of Form Six Teachers
Relationship Domain of Form Six Teachers Thinking in Teaching with External Factors of Form Six Teachers
<!--[if gte mso 9]><xml> <o:OfficeDocumentSettings> <o:RelyOnVML /> <o:AllowPNG /> </o:OfficeDocumentSettings> </xml><![endif]--> &l...
Solving Undamped and Damped Fractional Oscillators via Integral Rohit Transform
Solving Undamped and Damped Fractional Oscillators via Integral Rohit Transform
Background: The dynamics of fractional oscillators are generally described by fractional differential equations, which include the fractional derivative of the Caputo or Riemann-Li...
SPECIFICATION FOR TESTING AUTOMOTIVE MINIATURE BULBS
SPECIFICATION FOR TESTING AUTOMOTIVE MINIATURE BULBS
<div class="section abstract">
<div class="htmlview paragraph">The procedures contained in this specification cover the laboratory testing of miniature incandescent b...
METALCLAD RIGID AIRSHIP DEVELOPMENT1
METALCLAD RIGID AIRSHIP DEVELOPMENT1
<div class="htmlview paragraph">Several years ago some of the most prominent leaders in automotive industries cooperated to form a purely engineering group that had as its pr...
Fuze Well Mechanical Interface
Fuze Well Mechanical Interface
<div class="section abstract">
<div class="htmlview paragraph">This interface standard applies to fuzes used in airborne weapons that use a 3-Inch Fuze Well. It defin...
Soham Transform in Fractional Differential Equations
Soham Transform in Fractional Differential Equations
Objectives: Soham transforms is one of the appropriate tools for solving fractional differential equations that are flexible enough to adapt to different purposes. Methods: Integra...
Synchronization transition with coexistence of attractors in coupled discontinuous system
Synchronization transition with coexistence of attractors in coupled discontinuous system
The studies of extended dynamics systems are relevant to the understanding of spatiotemporal patterns observed in diverse fields. One of the well-established models for such comple...
Modulation Instability, Analytical, and Numerical Studies for Integrable Time Fractional Nonlinear Model through Two Explicit Methods
Modulation Instability, Analytical, and Numerical Studies for Integrable Time Fractional Nonlinear Model through Two Explicit Methods
The present work deals with the investigation of the time‐fractional Klein–Gordon (K‐G) model, which has great importance in theoretical physics with applications in various fields...