MIAMI, FL – December 4, 2025 – Led by Jesse Rogers (known online as Casper SMC), Smart Trading Blueprint has rolled out its proprietary Smart Trader AI platform. The technology is designed to augment the disciplined application of its core “First Candle Rule” trading model and provide a data-driven edge across its trading activities.
The foundation of Smart Trading Blueprint’s reputation is the systematic application of the First Candle Rule, a trading model that establishes a clear framework for managing market volatility. This concentrated emphasis on mastering one repeatable strategy diverges from the overwhelming information chaos that characterizes retail trading.
Smart Trader AI introduces an institutional-quality suite of tools, including real-time trade validation, customized performance diagnostics, and a market intelligence engine drawing on nearly a decade of Rogers’ proprietary trading data. The platform is engineered to mesh with existing operational structures, reinforcing the discipline fundamental to executing the First Candle Rule consistently.
“Our operation stands on discipline and a systematic framework. The First Candle Rule is that framework,” said Jesse Rogers. “Smart Trader AI sharpens judgment without replacing it. We’re rolling out this platform to arm our traders with data-informed capabilities and to keep execution standards high as we scale.”
Rogers’ approach to trading was forged through significant personal and financial pressure, an ordeal that cultivated the strict discipline now embedded in Smart Trading Blueprint’s culture. This background affords him distinct credibility with traders, who perceive him as a systems creator who built a clear pathway through market disorder.
About Smart Trading Blueprint
Smart Trading Blueprint is committed to the development and execution of systematic trading strategies. The organization is recognized for its proprietary “First Candle Rule” model, a disciplined framework built for reliable performance. Its Smart Trader AI platform augments this model by integrating data-driven tools and execution systems.
