POPULARITY
Vesa Paukku ja Jarno Korhonen perehtyvät podcastissa Pohjoismaiden rajat ylittävään maksualustaan P27:aan, joka mahdollistaa reaaliaikaiset koti- ja ulkomaanmaksut.
This week's guest joins us from Lexington, South Carolina. Corey Warner runs Bodyshop Baseball & P27 Academy. We’ll get into what P27 stands for. This is yet another episode in my ongoing research of academies. We’ll learn what Corey thinks makes academies such a better option for serious players than traditional travel ball. I hope you enjoy this episode of Travel Ball Talk. https://www.playinschool.com/warner
More than half a trillion real-time payments transactions will be processed over the next five years, according to a report from Florida-based payments group ACI Worldwide and Global Data. The report analyses global real-time, account-to-account payment volumes and forecasts across 30 global markets, projecting a compound annual growth rate (CAGR) of 23.4% from 2019 to 2024.India is poised to lead the world in real-time payments volume over the next five years, with transaction volumes set to grow from 15.3 billion in 2019 to 52.8 billion in 2024. Additional key countries and regions to watch for real-time payments growth include the US (42.1% CAGR growth), the Nordic countries of the P27 initiative (20.9% CAGR growth), ASEAN (39.0% CAGR growth) and Europe. Among the countries relatively new to real-time payments, Malaysia, Finland and Belgium are predicted to have the most exponential growth in the next five years, with an expected CAGR of 176.5%, 90% and 67.9%, respectively
During Stockholm Fintech Week 2020, we had the pleasure to interview Lars Sjögren CEO at P27. In this episode Lars openly shared the vision and ambitions behind P27 and he described the new payments platform as the first of its kind in the world. Described as a wonderful instant payments network which will function cross-border and multi-currency. P27 is a unique collaboration that unifies instant payments within the Nordic area. It is being built in different layers which will enable not just banks to interact with the platform but indirectly also FinTech’s, through banks, to interact with the platform. In addition to enabling innovation for banks and Fintech’s, P27 will also cut costs dramatically, by around 80%. The network will In January 2021 go live with four banks, Handelsbanken, Swedbank, Danske Bank and the fintech Klarna being the first players to use the platform. This episode is part of a special series of episodes that was recorded during Stockholm Fintech week 2020 in collaboration with Stockholm Fintech week.
EP93: Happy Turkey Day Smoked or baked? That is the question. Max Hizzle shits in the doc office. Of course, dad recorded the moment. 2019 is almost over. The podcast has over 5k plays. And Sean’s old podcast “P27” is still getting plays. This is all pretty weird. But we are grateful. What are we thankful for? https://unchurchedpodcast.wordpress.com Email: unchurchedpod@gmail.com Instagram: https://www.instagram.com/unchurchedpod/ Twitter: https://twitter.com/UnChurchedPod
Paul "Poacher" Goyette discusses Round 4 of the NY Offroad Series.
Graduate School of Systemic Neurosciences - Digitale Hochschulschriften der LMU
The medial superior olive (MSO) is an auditory brainstem nucleus within the superior olivary complex. Its functional role for sound source localization has been thoroughly investigated (for review see Grothe et al., 2010). However, few quantita tive data about the morphology of these neuronal coincidence detectors are available and computational models incorporating detailed reconstructions do not exist. This leaves open questions about metric characteristics of the morphology of MSO neurons as well as about electrophysiological properties that can be discovered using detailed multicompartmental models: what are the passive parameters of the membrane? What is the axial resistivity? How do dendrites integrate synaptic events? Is the medial dendrite symmetric to the lateral dendrite with respect to integration of synaptic events? This thesis has two main aspects: on the one hand, I examined the shape of a MSO neuron by developing and applying various morphological quantifications. On the other hand, I looked at the impact of morphology on basic electrophysiological properties and on characteristics of coincidence detection. As animal model I used Mongolian gerbils (Meriones unguiculatus) during the late phase of development between postnatal day 9 (P9) and 37 (P37). This period of time is of special interest, as it spans from just before hearing onset at P12 – P13 (Finck et al., 1972; Ryan et al., 1982; Smith and Kraus, 1987) to adulthood. I used single cell electroporation, microscopic reconstruction, and compartmentalization to extract anatomical parameters of MSO neurons, to quantitatively describe their morphology and development, and to establish multi-compartmental models. I found that maturation of the morphology is completed around P27, when the MSO neurons are morphologically compact and cylinder-like. Dendritic arbors become less complex between P9 and P21 as the number of branch points, the total cell length, and the amount of cell membrane decrease. Dendritic radius increases until P27 and is likely to be the main source of the increase in cell volume. In addition, I showed that in more than 85% of all MSO neurons, the axonal origin is located at the soma. I estimated the axial resistivity (80 Ω·cm) and the development of the resting conductance (total conductance during the state of resting potential) which reaches 3 mS/cm2 in adult gerbils. Applying these parameters, multi-compartmental models showed that medial versus lateral dendritic trees do not equally integrate comparable synaptic inputs. On average, latencies to peak and rise times of lateral stimulation are longer (12 μs and 5 μs, respectively) compared to medial stimulation. This is reflected in the fact that volume, surface area, and total cell length of the lateral dendritic trees are significantly more larger in comparison to the medial ones. Simplified models of MSO neurons showed that dendrites improve coincidence detection (Agmon-Snir et al., 1998; Grau-Serrat et al., 2003; Dasika et al., 2007). Here, I confirmed these findings also for multi-compartmental models with biological realistic morphologies. However, the improvement of coincidence detection by dendrites decreases during early postnatal development.