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Edge control touchdown1/14/2024 But normally, when you think of 0-techniques and 1-techniques, you think more in terms of playing the run. Dexter Lawrence had an unbelievable year last year, just with bull-rushing - just driving the center into the quarterback. Jeffery Simmons doesn’t come off the field. “Obviously, Quinnen Williams doesn’t come off the field. “Normally, the guys we think of as the best at those positions, and there are exceptions, but they’re usually more run players than pass players,” Greg said. You can watch this week’s “Xs and Os” right here:Ġ-tech players, who alight right over the center, and 1-tech players, who are in the gap between the center and a guard, are obviously required to use speed and power to get through all that mass to the quarterback. Who does it best, and what are the tools needed to do it? Greg and Doug spent this week’s “Xs and Os” building the ideal defensive line with those specific traits, and here, we drill down to the best pass-rushers in the 2022 season from every gap. In this week’s “Xs and Os with Greg Cosell and Doug Farrar,” Greg (of NFL Films and ESPN’s NFL Matchup) and Doug (of Touchdown Wire) get into the traits needed to get after the quarterback from every gap - from 0-tech (right over the center) to wide-9 (far outside the offensive tackle). Still, quarterback disruption is about more than just scheme - you also have to have a certain number of guys with the right tools and traits to blow things up from every gap. In the effort to defend explosive plays, defenses align their pass-rushers all over the line of scrimmage in everything from stunts off of base fronts to overload fronts, where offensive linemen have to adjust more than they’d like to against numbers that don’t work for them.Īnything to get to the quarterback as quickly as possible. Thanks to the numerous watermark sensors, output ports and connectivity options available on the Arduino Edge Control, this precision farming can be achieved on an unprecedented level.Ĩx latching relay command outputs with driversĨx latching relay command outputs without driversĤx 60V/2.Today’s NFL is about two things above all else - creating and defending explosive plays. Mushrooms are notorious for requiring the perfect temperature and humidity conditions to sustain spore growth, while also preventing competing fungi from growing. The Arduino Edge Control can help match the even higher requirements of Aquaponics, by providing automated control over the internal process and reducing production risks. The Arduino Edge Control can be set-up to control these conditions with minimal manual labour. Since hydroponics involves the growth of plants without soil, delicate care must be taken to maintain the conditions required for optimum growth. The inclusion of an Arduino MKR GPS Shield allows for optimum crop rotation planning and acquisition of geospatial data. The Arduino Edge Control has the capability to improve crop quality and reduce human effort/error by automating processes like irrigation, fertilization, or pest control.Īutomatically manage the humidity and temperature to ensure the best environment for crop growth, minimising carbon emissions and increasing economic yield. crop yield, equipment efficiency, staff performance, etc.). Once sent to the Arduino Cloud, the data value chain becomes valuable analytics that supports business processes at various levels (e.g. Particularly suited to smart agriculture, the sensors can collect real-time data such as weather conditions, soil quality, crop growth, amongst others. Moreover, it has the capability to provide real-time monitoring over the entire process, thereby reducing production-related risks. The Arduino Edge Control is capable of connecting sensors and drive actuators like latching valves (common in agriculture). The Arduino Edge Control features built-in Bluetooth® and its connectivity can be expanded with 2G/3G/CatM1/NB-IoT modems, LoRa®, Sigfox, and WiFi by adding anyone of the MKR boards. Remotely control your application through the Arduino Cloud (or third-party services) using a choice of connectivity options suitable to the location. Power can be either supplied via solar panel or DC input. It can be positioned anywhere and is suitable for precision farming, smart agriculture, and other applications requiring intelligent control in remote locations.
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