We propound a rock-bottom transaction Accordant Recovery Line agglomeration (ARL-agglomeration) blueprint for Nomadic systems, where no inoperative snapshots (recapture-pinpoints) are hoarded and an effort has been made to moderate the intrusion of transactions. We propose to delay the processing of selective missives at the receiver end only during the ARL-agglomeration period. A transaction is indorsed to carry out its normal computations and ship missives during its intrusion period. In this way, we try to keep intrusion of transactions to bare rock-bottom. In order to keep the intrusion time rock-bottom, we grab the causal-interrelationships vectors and compute the accurate rock-bottom set in the beginning of the blueprint. In orchestrated ARL-agglomeration, if a solitary transaction flops to retain its recapture-pinpoint; all the ARL-agglomeration effort goes waste, because, each transaction has to terminate its partially-perpetual recapture-pinpoint. In order to retain its partially-perpetual recapture-pinpoint, a Nomadic Node needs to transfer large recapture-pinpoint data to its native Nm_Spp_St (Nomadic Support Station) over wireless channels. The ARL-agglomeration effort may be remarkably high due to recurrent forsakes especially in nomadic systems. We try to curtail the loss of ARL-agglomeration effort when any transaction flops to retain its recapture-pinpoint in coordination with others. In the first phase, we retain instantaneous recapture-pinpoints only. In this case, if any transaction flops to retain its recapture-pinpoint in the first phase, all concerned transactions need to terminate their instantaneous recapture-pinpoints only and not the partially-perpetual ones.

Culpability Immunity, Nomadic Computing Systems, orchestrated checkpointing, Rollback Recovery, Distributed Systems.