What hurts the dominant airlines at hub airports?

This paper estimates a frequency equation to explain the determinants of network airline service levels at their hub airports. Drawing on European data for 2002 - 2013, we find that network airlines reduce frequencies when the share of low - cost airlines increases both on the route and at the hub airport. On the contrary, frequency choices of network airlines are not affected by competition from low - cost airlines operating in nearby secondary airports. We also find some evidence that mergers in Europe may result in a re - organization of the route structure in favor of the hubs of the larger airline.

What hurts the dominant airlines at hub airports?

This paper estimates a frequency equation to explain the determinants of network airline service levels at their hub airports. Drawing on European data for 2002 - 2013, we find that network airlines reduce frequencies when the share of low - cost airlines increases both on the route and at the hub airport. On the contrary, frequency choices of network airlines are not affected by competition from low - cost airlines operating in nearby secondary airports. We also find some evidence that mergers in Europe may result in a re - organization of the route structure in favor of the hubs of the larger airline.

Intercontinental fligths from European Airports: Towards hub concentration or not?

This paper empirically analyzes changes in the supply of non-stop intercontinental flights from European airports. We take advantage of OAG data for air services from a rich sample of European airports to intercontinental destinations in the period 2004-2008. Results of the empirical analysis indicate a tendency towards a more balanced distribution of intercontinental flights across European airports. We also find that the demographic size of a region, its sector specialization, the political role of its central city and the proportion of connecting traffic explain the amount of and changes in long-haul air services supplied from European airports.

Improving the efficiency of PV low-power processing circuits by selecting an optimal inductor current of the DC/DC converter

In the context of autonomous sensors powered by small-size photovoltaic (PV) panels, this work analyses how the efficiency of DC/DC-converter-based power processing circuits can be improved by an appropriate selection of the inductor current that transfers the energy from the PV panel to a storage unit. Each component of power losses (fixed, conduction and switching losses) involved in the DC/DC converter specifically depends on the average inductor current so that there is an optimal value of this current that causes minimal losses and, hence, maximum efficiency. Such an idea has been tested experimentally using two commercial DC/DC converters whose average inductor current is adjustable. Experimental results show that the efficiency can be improved up to 12% by selecting an optimal value of that current, which is around 300-350 mA for such DC/DC converters.