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Systems and methods for controlling regeneration of a particulate filter downstream of an engine coupled to an energy conversion device are provided herein. One exemplary method includes, during first engine shutdown conditions, increasing excess oxygen to the particulate filter by spinning the engi

Systems and methods for controlling regeneration of a particulate filter downstream of an engine coupled to an energy conversion device are provided herein. One exemplary method includes, during first engine shutdown conditions, increasing excess oxygen to the particulate filter by spinning the engine with the energy conversion device, and regenerating the particulate filter. The method also includes, during second engine shutdown conditions, decreasing the excess oxygen to the particulate filter.

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1. A method for controlling regeneration of a particulate filter positioned downstream of an engine coupled to an energy conversion device in a vehicle, comprising: during first engine shutdown conditions with filter regeneration: increasing excess oxygen to the particulate filter by spinning the en

1. A method for controlling regeneration of a particulate filter positioned downstream of an engine coupled to an energy conversion device in a vehicle, comprising: during first engine shutdown conditions with filter regeneration: increasing excess oxygen to the particulate filter by spinning the engine with the energy conversion device, andregenerating the particulate filter; andduring second engine shutdown conditions without filter regeneration: decreasing the excess oxygen to the particulate filter. 2. The method of claim 1, where first engine shutdown conditions include an amount of stored particulate at the particulate filter at a last combustion that is greater than an amount of stored particulate at the particulate filter at a last combustion during second engine shutdown conditions. 3. A method for controlling regeneration of a particulate filter positioned downstream of an engine coupled to an energy conversion device in a vehicle, comprising: during first engine shutdown conditions with filter regeneration: increasing excess oxygen to the particulate filter by spinning the engine with the energy conversion device, andregenerating the particulate filter; andduring second engine shutdown conditions without filter regeneration: decreasing the excess oxygen to the particulate filter,where the increasing of excess oxygen to the particulate filter includes increasing a throttle opening of a throttle positioned upstream of the engine, and where the decreasing of the excess oxygen includes reducing the throttle opening, wherein fresh air is introduced to the engine, and passed through to the particulate filter while the engine spins but does not combust. 4. The method of claim 1, where, during first engine shutdown conditions, the increasing of excess oxygen to the particulate filter is carried out while a temperature of the particulate filter is within a prescribed temperature range. 5. The method of claim 1, where during first engine shutdown conditions, the increasing of excess oxygen to the particulate filter occurs during engine spin-down, and a regeneration reaction occurs at least partially during engine rest. 6. The method of claim 1, further comprising regenerating the particulate filter before first engine shutdown conditions are met, where the regenerating during the first engine shutdown conditions includes continuing the regenerating. 7. The method of claim 6, where before first engine shutdown conditions are met, the regenerating includes directing excess oxygen to a position upstream of the particulate filter and downstream of a three-way catalyst. 8. The method of claim 1, further comprising, during first engine shutdown conditions, adjusting engine speed based on an exhaust gas oxygen sensor and/or an exhaust temperature sensor. 9. The method of claim 1, further comprising, during first engine shutdown conditions, adjusting engine spinning speed based on an amount of particulate at the particulate filter. 10. The method of claim 1, where a regeneration of the particulate filter is not occurring before the second engine shutdown conditions are met, and where a particulate filter regeneration is not carried out during the second engine shutdown conditions. 11. A method for controlling regeneration of a particulate filter downstream of an engine coupled to an energy conversion device, comprising: during first conditions, stopping combustion and regenerating the particulate filter by adjusting engine speed; andduring second conditions, stopping combustion and regenerating the particulate filter by adjusting an EGR valve. 12. The method of claim 11, where second conditions include vehicle motion, and where the particulate filter is regenerated by further adjusting a ram-air valve in a ram-air conduit. 13. A system for controlling a regeneration of a particulate filter, the system comprising: an engine having a plurality of cylinders;a particulate filter positioned downstream of the engine;a three-way catalyst positioned upstream or downstream of the particulate filter;an oxygen sensor in an exhaust conduit; andan electronic controller including a computer-readable storage medium with instructions to: adjust an energy conversion device to at least partially drive the engine,regenerate the filter by adjusting an operating parameter to deliver excess oxygen from the engine to the particulate filter,deliver excess oxygen to the particulate filter by adjusting an air-fuel ratio in one or more combusting cylinders, andadjust an amount of excess oxygen based on feedback from the oxygen sensor. 14. The system of claim 13, where the electronic controller has instructions to deliver excess oxygen by increasing one or more of a throttle opening and an engine speed. 15. The system of claim 13, further comprising a temperature sensor in the exhaust conduit, where the electronic controller has instructions to adjust the amount of excess oxygen based on feedback from the temperature sensor. 16. A method for controlling particulate filter regeneration with an engine coupled to a propulsion system motor, comprising: during stopped vehicle conditions, stopping combustion and regenerating the particulate filter by adjusting engine speed via the propulsion system motor; andduring moving vehicle conditions, stopping combustion and regenerating the particulate filter by adjusting a ram-air valve.