Auto Agent Commission calculation Using BST

Today almost all insurance companies used online system where everything is automated from starting to policy dispatch. Various insurance policies have been offered online. There are various Business Process Management tools used today for reducing manual efforts and also minimized human errors. With such BPM tools organization able to complete tasks very accurately and economically. In any type of insurance medical and non medical documents play important role. With BPM tools such documents maintain in electronic format by using commercial scanners like captive and provide user interfaces to users of organization where user can view electronic documents along with available business data. In this paper a new functionality is proposed in existing system where insurance policy agents commission calculated using Binary Search Tree where a agent consider as parent node and sub agents as child node. Also this calculated commission will update in other systems which are integrated together with BPM tool. In proposed system we also update calculated commission on different user interfaces wherever its required

Binary Search Tree and Its Applications: A Survey

Binary search trees used as a data structure for rapid access to stored data. Arrays, vectors and linked lists data structures are limited by the trade-off between ability to perform fast search and resize easily. Complete and nearly complete binary search trees are of particularly significance. New version of insert-delete pair maintains random binary tree in a manner where all grandparents in tree always have both sub-trees full. In worst case binary search tree reduce to a linear link list, so reducing such search to sequential. In particular, we obtain a BST data structure that is O(log log n) competitive, satisfies the working set bound, dynamic ?nger bound and unified bound with an additive O(log log n) factor, and performs each access in worst-case O(log n) time

Estimated GFR and the Effect of Intensive Blood Pressure Lowering after Acute Intracerebral Hemorrhage

Background: The kidney-brain interaction has been a topic of growing interest. Past studies of the effect of kidney function on intracerebral hemorrhage (ICH) outcomes have yielded inconsistent findings. Although the second, main phase of the Intensive Blood Pressure Reduction in Acute Cerebral Hemorrhage Trial (INTERACT2) suggests the effectiveness of early intensive blood pressure (BP) lowering in improving functional recovery after ICH, the balance of potential benefits and harms of this treatment in those with decreased kidney function remains uncertain. Study Design: Secondary analysis of INTERACT2, which randomly assigned patients with ICH with elevated systolic BP (SBP) to intensive (target SBP < 140 mm Hg) or contemporaneous guideline-based (target SBP < 180 mm Hg) BP management. Setting & Participants: 2,823 patients from 144 clinical hospitals in 21 countries. Predictors Admission estimated glomerular filtration rates (eGFRs) of patients were categorized into 3 groups based on the CKD-EPI (Chronic Kidney Disease Epidemiology Collaboration) creatinine equation: normal or high, mildly decreased, and moderately to severely decreased (>90, 60-90, and <60 mL/min/1.73 m2, respectively). Outcomes: The effect of admission eGFR on the primary outcome of death or major disability at 90 days (defined as modified Rankin Scale scores of 3-6) was analyzed using a multivariable logistic regression model. Potential effect modification of intensive BP lowering treatment by admission eGFR was assessed by interaction terms. Results: Of 2,623 included participants, 912 (35%) and 280 (11%) had mildly and moderately/severely decreased eGFRs, respectively. Patients with moderately/severely decreased eGFRs had the greatest risk for death or major disability at 90 days (adjusted OR, 1.82; 95% CI, 1.28-2.61). Effects of early intensive BP lowering were consistent across different eGFRs (P = 0.5 for homogeneity). Limitations: Generalizability issues arising from a clinical trial population. Conclusions: Decreased eGFR predicts poor outcome in acute ICH. Early intensive BP lowering provides similar treatment effects in patients with ICH with decreased eGFRs